{"title":"Engineering Textbooks","description":"","products":[{"product_id":"9789333200745-2","title":"Energy Engineering for SPPU 15 Course (BE - II - Mech. - 402047)","description":"\u003cp\u003eUnit 1: Introduction and Thermal Power Plant A) Power Generation : global scenario, present status of power generation in India, in Maharashtra, Role of private and governmental organizations, load shedding, carbon credits, pitfalls in power reforms, concept of cascade efficiency. B) Thermal Power Plant : General layout of modern thermal power plant with different circuits, site selection criteria, classification of coal, coal blending, coal beneficiation, selection of coal for thermal power plant, slurry type fuels, pulverized fuel handling systems, fuel burning methods, FBC systems, high pressure boilers, ash handling system, Rankine cycle with reheat and regeneration (Numerical Treatment), steam power plants with process heating (Numerical Treatment) (Chapters - 1, 2) Unit 2: Steam Condenser and Environmental Impacts of Thermal Power Plant A) Steam Condenser : Necessity of steam condenser, elements of steam condensing plant, classification, cooling water requirements, condenser efficiency, vacuum efficiency (Numerical Treatment), cooling towers, air leakage and its effects on condenser performance, air pumps (Numerical Treatment for Air Pump capacity) B) Environmental impact of thermal power plants : Different pollutants from thermal power plants, their effects on human health and vegetation, methods to control pollutants such as particulate matter; oxides of sulphur; oxides of nitrogen, dust handling systems, ESP, scrubbers, water pollution, thermal pollution, noise pollution from TPP and its control. (Chapters - 3, 4) Unit 3: Hydroelectric and Nuclear Power Plant Unit 4: Diesel and Gas Turbine Power Plant Unit 5: Non-Conventional Power Plants Unit 6: Instrumentation and Economics of Power Plant\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41888174407851,"sku":"939382631","price":275.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333200745_2.jpg?v=1655393934"},{"product_id":"9789390450633-1","title":"Concrete Technology for SPPU 19 Course (SE - IV - Civil - 201010)","description":"\u003cp\u003eUnit I :Introduction to Concrete and Ingredients of Concrete a) Cementand Aggregate : Manufacture, chemical composition, hydration, physical and mechanical properties, classification, types and application of cement, tests on cement, Classification of aggregate, physical and mechanical properties of aggregate, deleterious materials in aggregate, alkali-aggregate reaction, Fineness and gradation of aggregates using sieve analysis, tests on aggregates. b) Water and Admixtures : Quality of water for use in concrete, role of admixture, classification and types of admixtures like accelerators, retarders, plasticizers, super plasticizers, mineral admixtures-fly ash, silica fume, ground granulated blast furnace slag. (Chapter - 1) Unit II :Production, Properties and Testing of Fresh Concrete a) Production and Properties of Fresh Concrete : Nominal mixes, Water-cement ratio, Process of manufacturing fresh concrete-batching, mixing, transportation, compaction, curing of concrete, curing methods, influence of temperature, maturity rule, workability and factors affecting workability, cohesion and segregation. b) Tests on fresh concrete : Workability by slump cone, compaction factor, Vee-Bee consistometer and flow table apparatus, Effect of admixture on workability of concrete and optimum dosage of admixture by Marsh cone test. (Chapter - 2) Unit III :Properties and Testing of Hardened Concrete a) Hardened concrete : Strength of concrete, factors affecting strength, micro-cracking and stress-strain relationship, relation between tensile and compression strength, impact strength, abrasion resistance, creep and shrinkage. Unit IV :Concrete Mix Design and Methods of Mix Design Unit V :Concreting Equipments, Techniques and Special concretes Unit VI :Deterioration and Repairs in Concrete\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41888179716267,"sku":"939382580","price":300.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789390450633_1.jpg?v=1655394161"},{"product_id":"9789391567651-1","title":"Electronic Measurement for SPPU 19 Course (TE - SEM V - E\u0026TC - 304185) Elective I","description":"\u003cp\u003eUnit - IBasics of Measurements Units Systems, Standards, Measurement system characteristics (static and dynamic), Statistical metrics in measurement systems, probability of errors, Calibration of measurement system. (Chapter - 1) Unit - IIElectronics Measurements Voltage and current measurement, Digital Voltmeter (DVM), types of DVM, Digital Multi meter, true r.m.s. voltmeter, Vector voltmeter, Impedance meter, Q-meter, Harmonic Distortion analyzers, Wave analyzer, Spectrum Analyzer, Network Analyzer, Logic Analyzer. (Chapter - 2) Unit - IIISignal Generators Audio, RF, Micro wave signal generators, Frequency synthesis techniques, Synthesizers, digital signal generators, Noise generators, characteristics of pulse, signal and noise. (Chapter - 3) Unit - IVSpecial Purpose CRO Dual trace CRO, DSO, Sampling CRO, curve Tracer, Power Oscilloscopes, Delayed sweep CRO, Component Test, Z-modulation and X-Y mode operations, Measurements on oscilloscope, Oscilloscope accessories. (Chapter - 4) Unit - VDisplay Devices, Recorders and Universal Counter \/ Timer LCD Display, LED\/OLED Display, Plasma Display, X-Y Plotters, Strip Chart Recorders, Universal counter\/ Timers (for time period, time interval, frequency, frequency ratio and pulse measurement), Communication buses PC \/ instruments (EIA\/TIA 232, 423, 422, 488), Internal \u0026amp; external acquisition cards. (Chapter - 5) Unit - VIAdvanced Measurement Systems Automatic Test Equipments, Microwave measurements using Network Analyzer, EMI\/EMC test instruments, OTDR, Field Strength Meter, Industrial revolutions \u0026amp; their impact on Industrial Automation, Case study of Electronics Measurement Systems. (e.g. DSO, Multi trace CRO, Spectrum Analyzer, Logic Analyzer) (Chapter - 6)\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41888184959147,"sku":"1505761037","price":375.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789391567651_1.jpg?v=1655394427"},{"product_id":"9789333211826-3","title":"Electrical Measurements and Instrumentation  for SPPU 19 Course (SE - III - Electrical - 203144)","description":"\u003cp\u003eUnit 1 A) Classification of Measuring Instruments : Characteristics of measuring instruments : Static and dynamic accuracy, Linearity, Speed of response, Dead zone, Repeatability, Resolution, Span, Reproducibility, Drifts, Necessity of calibration, standands and their classification. Absolute and secondary instruments, Types of secondary instruments : Indicating, Integrating and recording, Analog\/digital. Ammeter and voltmeter theory : Essentials of indicating instruments deflecting, Controlling and damping systems. Construction, Working principle, Torque equation, Advantages and disadvantages of Moving Iron (MI) (Attraction and repulsion), and Permanent Magnet Moving Coil (PMMC). block diagram and operation of digital ammeter and voltmeter. B) Range Extension : PMMC ammeters and voltmeters using shunts, Multipliers. Universal shunt, Universal multiplier. Instrument transformers : Construction, Connection of CT and PT in the circuit, Advantages of CT\/PT over shunt and multipliers for range extension of MI instruments, Transformation ratio, Turns ratio, Nominal ratio, Burden, Ratio and phase angle error. (Descriptive treatment only).(Chapters - 1,2) Unit 2 A) Measurement of Resistance : Measurement of low, Medium and high resistance, Wheatstone bridge, Kelvin's double bridge, Ammeter-voltmeter method, Megger, Loss of charge method.Earth tester for earth resistance measurement. B) Measurement of Inductance : Introduction, Sources and detectors for a.c. bridge, General equation for bridge at balance. Measurement of inductance : Maxwell's inductance and Maxwell's inductance-Capacitance bridge, Anderson's bridge. (Chapter - 3) Unit 3 Measurement of Power : Construction, Working principle, Torque equation, Errors and their compensation, Advantages and disadvantages of dynamometer type wattmeter, Low power factor wattmeter, Poly-phase wattmeter. Active and reactive power measurement in three phase system for balanced and unbalanced load using three wattemeter method, Two wattmeter method and one wattmeter method. Power analyzer, Multimeter. (Chapter - 4) Unit 4 Measurement of Energy : Construction, Working principle, Torque equation, Errors and adjustments of single phase conventional (induction type) energy meter, Calibration of energy meter. Block diagram and operation of electronic energy meter. Three phase energy meter, TOD meter. (Chapter - 5) Unit 5 A) Oscilloscope : Introduction, Various parts, Front panel controls, Use of CRO for measurement of voltage, Current, Period, Frequency, Phase angle and frequency by lissajous pattern and numerical. Introduction to DSO. B) Transducers : Introduction, Classification, types : resistive, inductive, capacitive, basic requirements for transducers. C) Pressure measurement : Introduction, Classification of pressure as low, medium and high, absolute, gauge, vacuum, static, dynamic and head pressure. High pressure measurement using electric methods, low pressure measurement by McLeod gauge and Pirani gauge, Capacitive pressure transducer. (Chapters - 6, 7) Unit 6 A) Level Measurement : Introduction and importance of level measurement, Level measurement methods : Mechanical, Hydraulic, Pneumatic, Electrical,Nucleonic and ultrasonic.  B) Displacement Measurement : LVDT and RVDT - Construction, Working, Application, Null voltage, Specifications, Advantages and disadvantages, Effect of frequency on performance. C) Strain gauge : Introduction, Definition of strain, Types of strain gauge : Wire strain gauge, Foil strain gauge, Semiconductor strain gauge etc. Their construction, Working, Advantages and disadvantages. (Chapter - 8)\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41888185712811,"sku":"642896384","price":135.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333211826_3.jpg?v=1655394459"},{"product_id":"9789389750294-3","title":"Power Electronics  for  GTU 18 Course  (IV- ELECTRICAL -3140915)","description":"\u003cp\u003e1. Power switching devices : Diode, Thyristor, MOSFET, IGBT; Static characteristics of these devices; Operation of power devices as switches and switching losses, Single-quadrant switches, two-quadrant and bidirectional switches; Firing circuit for thyristors; Gate drive circuits for MOSFET and IGBT. (Chapter - 1) 2. DC-DC Converters - Switching Voltage Regulators : Linear voltage regulator, Concept of switching voltage regulators and advantages, Operation and Principle of Basic DC-DC converter topologies like Buck, Boost and Buck-Boost converter, Various control techniques for output voltage control, Mathematical analysis for these converters for steady state, Concept of CCM and DCM and factors affecting them, Closed loop control for voltage regulation, Isolated converters : Forward converter and Flyback converter; Multi-quadrant operation of DC-DC converters; Applications. (Chapter - 2) 3. DC-AC Converters - Inverters : Classification of Inverters, Half-bridge and full-bridge single-phase voltage source inverter, switch states and instantaneous output voltage, square wave operation of the inverter, concept of average voltage over a switching cycle, bipolar sinusoidal modulation and unipolar sinusoidal modulation, modulation index and output voltage, three-phase sinusoidal modulation, Three phase bridge inverter - 180° and 120° - conduction mode, SPWM control, Third harmonic injection, SVPWM, Output voltage and frequency control, Harmonic spectrum, Harmonics and its effects, Applications. (Chapter - 3) 4. AC-DC Converters : Concept of phase control using half-wave single phase ac-dc converter, Single phase and three phase half wave and full wave, 1-phase and 3- phase half controlled and fully controlled converters, Analysis with R \u0026amp; RL load, Performance parameters for converters 6. Miscellaneous :\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41888419512491,"sku":"931539717","price":395.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789389750294_3.jpg?v=1655402896"},{"product_id":"9789389750782-2","title":"Signals \u0026 Systems  for  GTU 18 Course  (IV- ELEX\/ E\u0026TC -3141005)","description":"\u003cp\u003eChapter - 1 Introduction to Signals and Systems Chapter - 2 Behaviour of CT and DT LTI Systems Chapter - 3 Introduction to Fourier Series and Fourier Transform Chapter - 4 z-Transform Chapter - 5 Sampling and Reconstruction Solved GTU Question Papers Solved Model Question Paper\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41888419971243,"sku":"931539653","price":410.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789389750782_2.jpg?v=1655402915"},{"product_id":"9789355850225-1","title":"Electric Drives  for  GTU 18 Course  (VI- Electrical \/Prof. Elec.-II - 3160919)","description":"\u003cp\u003eModule 1DC motor characteristics Review of emf and torque equations of DC machine, review of torque-speed characteristics of separately excited dc motor, change in torque-speed curve with armature voltage, example load torque-speed characteristics, operating point, armature voltage control for varying motor speed, flux weakening for high speed operation. (Chapter - 1) Module 2Chopper fed DC drive Review of dc chopper and duty ratio control, chopper fed dc motor for speed control, steady state operation of a chopper fed drive, armature current waveform and ripple, calculation of losses in dc motor and chopper, efficiency of dc drive, smooth starting. (Chapter - 2) Module 3 Multi-quadrant DC drive Review of motoring and generating modes operation of a separately excited dc machine, four quadrant operation of dc machine; single-quadrant, two-quadrant and four-quadrant choppers; steady-state operation of multi-quadrant chopper fed dc drive, regenerative braking. (Chapter - 3) Module 4 Closed-loop control of DC Drive Control structure of DC drive, inner current loop and outer speed loop, dynamic model of dc motor dynamic equations and transfer functions, modeling of chopper as gain with switching delay, plant transfer function, for controller design, current controller specification and design, speed controller specification and design. (Chapter - 4) Module 5Induction motor characteristics Review of induction motor equivalent circuit and torque-speed characteristic, variation of torque speed curve with (i) applied voltage, (ii) applied frequency and (iii) applied voltage and frequency, typical torque-speed curves of fan and pump loads, operating point, constant flux operation, flux weakening operation. (Chapter - 5) Module 6 Scalar control or constant V\/f control of induction motor Review of three-phase voltage source inverter, generation of three-phase PWM signals, sinusoidal modulation, space vector theory, conventional space vector modulation; constant V\/\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41888421281963,"sku":"931539683","price":325.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789355850225_1.jpg?v=1655402951"},{"product_id":"9789390450541-2","title":"Electrical Engineering Materials  for  GTU 18 Course  (VI- Electrical \/Open Elec.-II - 3160923)","description":"\u003cp\u003e1.    Conductors Classification : High conductivity, high resistivity materials, fundamental requirements of high conductivity materials and high resistivity materials, mobility of electron in metals, factors affecting conductivity and resistivity of electrical material, thermoelectric Effect : Seeback effect, Peltier effect, commonly used high conducting materials : copper, aluminium, bronze brass properties and characteristics, constantan, platinum and nichrome  properties, characteristics and applications, material used for AC and DC machines.  (Chapter 1 and 2) 2.    Dielectric Materials and Insulators Properties of gaseous, liquid and solid dielectric, dielectric as a field medium, electric conduction in gaseous, liquid and solid dielectric, breakdown in dielectric materials, mechanical and electrical properties of dielectric materials, effect of temperature on dielectric materials, polarization, loss angle and dielectric loss, petroleum based insulating oils, transformer oil, capacitor oils and its properties, classification of insulation (Solid) and application in AC and DC machines, solid electrical insulating materials, fibrous, paper boards, yarns, cloth tapes, sleeving wood, impregnation, plastics, filling and bounding materials, fibrous, film, mica, rubber, mica based materials, ceramic materials.          (Chapter 3 and 4) 3.    Magnetic Materials Basic terms, classification of magnetic material : diamagnetic, paramagnetic, ferromagnetic, anti- ferromagnetic and amorphous material, hysteresis loop, magnetic susceptibility. coercive force, curie temperature, magneto-striction, factors affecting permeability and hysteresis loss, common magnetic materials: soft and hard magnetic materials, electric steel, sheet steel, cold rolled grain-oriented silicon steel, hot rolled grain-oriented silicon steel.  (Chapter 5) 4.    Semi-Conductors and Superconductors General concepts, energy bands, types of semiconductors : intrinsic Semi-conductors, extrinsic Semi-conductors, compound semiconductor, amorphous semiconductor, hall effect, drift, mobility, diffusion in Semiconductors, semi-conductors and their applications. Superconductors : Superconductivity, properties of superconductors, critical field, Meissner effect, type-I and type-II Superconductors.  (Chapter 6 and 7) 5.    Special purpose materials Nickel iron alloys, high frequency materials, permanent magnet materials, feebly magnetic materials, ageing of a permanent magnet, effect of impurities, Losses in Magnetic materials, Refractory Materials, Structural Materials, Radioactive Materials, Galvanization and Impregnation of materials. 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(Chapter 1) UNIT II CUDA PROGRAMMING Using CUDA - Multi GPU - Multi GPU Solutions - Optimizing CUDA Applications : Problem Decomposition, Memory Considerations, Transfers, Thread Usage, Resource Contentions. (Chapter 2) UNIT III PROGRAMMING ISSUES Common Problems: CUDA Error Handling, Parallel Programming Issues, Synchronization, Algorithmic Issues, finding and Avoiding Errors. (Chapter 3) UNIT IV OPENCL BASICS OpenCL Standard – Kernels – Host Device Interaction – Execution Environment – Memory Model – Basic OpenCL Examples. (Chapter 4) UNIT V ALGORITHMS ON GPU Parallel Patterns: Convolution, Prefix Sum, Sparse Matrix - Matrix Multiplication - Programming Heterogeneous Cluster. 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Illustrative problems : find minimum in a list, insert a card in a list of sorted cards, guess an integer number in a range, Towers of Hanoi. (Chapter - 1) UNIT IIData Types, Expressions, Statements Python interpreter and interactive mode, debugging; values and types : int, float, boolean, string, and list; variables, expressions, statements, tuple assignment, precedence of operators, comments; Illustrative programs : exchange the values of two variables, circulate the values of n variables, distance between two points. (Chapter - 2) UNIT IIIControl Flow, Functions, Strings Conditionals : Boolean values and operators, conditional (if), alternative (if-else),chained conditional (if-elif-else);Iteration : state, while, for, break, continue, pass; Fruitful functions: return values,parameters, local and global scope, function composition, recursion; Strings: string slices,immutability, string functions and methods, string module; Lists as arrays. Illustrative programs: square root, gcd, exponentiation, sum an array of numbers, linear search, binary search. (Chapter - 3) UNIT IVLists, Tuples, Dictionaries Lists : list operations, list slices, list methods, list loop, mutability, aliasing, cloning lists, list parameters; Tuples: tuple assignment, tuple as return value; Dictionaries: operations and methods; advanced list processing - list comprehension; Illustrative programs : simple sorting, histogram, Students marks statement, Retail bill preparation. 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(Chapters - 1, 2) UNIT II Sensor Networks - Introduction and Architectures Challenges for Wireless Sensor Networks, Enabling Technologies for Wireless Sensor Networks, WSN application examples, Single-Node Architecture - Hardware Components, Energy Consumption of Sensor Nodes, Network Architecture - Sensor Network Scenarios, Transceiver Design Considerations, Optimization Goals and Figures of Merit. (Chapter - 3) UNIT IIIWSN Networking Concepts and Protocols MAC Protocols for Wireless Sensor Networks, Low Duty Cycle Protocols And Wakeup Concepts - S-MAC, The Mediation Device Protocol, Contention based protocols - PAMAS, Schedule based protocols - LEACH, IEEE 802.15.4 MAC protocol, Routing Protocols- Energy Efficient Routing, Challenges and Issues in Transport layer protocol. (Chapters - 4,5,6) UNIT IVSensor Network Security Network Security Requirements, Issues and Challenges in Security Provisioning, Network Security Attacks, Layer wise attacks in wireless sensor networks, possible solutions for jamming, tampering, black hole attack, flooding attack. Key Distribution and Management, Secure Routing - SPINS, reliability requirements in sensor networks. (Chapter - 7) UNIT VSensor Network Platforms and Tools Sensor Node Hardware - Berkeley Motes, Programming Challenges, Node-level software platforms - TinyOS, nesC, CONTIKIOS, Node-level Simulators - NS2 and its extension to sensor networks, COOJA, TOSSIM, Programming beyond individual nodes - State centric programming. 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(Chapter - 1) UNIT II    Radio Wave Propagation Radio wave propagation – Macroscopic fading- free space and out door, small scale fading Fading measurements – Direct pulse measurements, spread spectrum correlation channel sounding frequency domain channel sounding, Antenna Diversity – Diversity combining methods. (Chapter - 2) UNIT III    Space Time Block Codes Delay Diversity scheme, Alamoti space time code – Maximum likelihood decoding maximum ratio combining. Transmit diversity space time block codes for real signal constellation and complex signal constellation - decoding of STBC. (Chapter - 3) UNIT IV    Space Time Trellis Codes Space time coded systems, space time code word design criteria, design of space time T C on slow fading channels, design of STTC on Fast Fading channels, performance analysis in slow and fast fading channels, effect of imperfect channel estimation and Antenna correlation on performance, comparison of STBC \u0026amp; STTC. (Chapter - 4) UNIT V    Layered Space Time Codes LST transmitter – Horizontal and Vertical LST receiver – ML Rx, Zero forcing Rx; MMSE Rx, SIC Rx, ZF V-blast Rx- MMSE V-blast Rx, Iterative Rx - capacity of MIMO – OFDM systems – capacity of MIMO multi user systems. 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UNIT III - Solar PV and Thermal Systems Solar Radiation, Radiation Measurement, Solar Thermal Power Plant, Central Receiver Power Plants, Solar Ponds - Thermal Energy storage system with PCM- Solar Photovoltaic systems: Basic Principle of SPV conversion - Types of PV Systems - Types of Solar Cells, Photovoltaic cell concepts: Cell, module, array, PV Module I-V Characteristics, Efficiency \u0026amp; Quality of the Cell, series and parallel connections, maximum power point tracking, Applications. UNIT IV - Biomass Energy Introduction-Bio mass resources - Energy from Bio mass: conversion processes - Biomass Cogeneration - Environmental Benefits. Geothermal Energy: Basics, Direct Use, Geothermal Electricity. Mini\/micro hydro power: Classification of hydropower schemes, Classification of water turbine, Turbine theory, Essential components of hydroelectric system. UNIT V - Other Energy Sources Tidal Energy : Energy from the tides, Barrage and Non Barrage Tidal power systems. 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UNIT-II Parallel Program Challenges Performance - Scalability - Synchronization and data sharing - Data races - Synchronization primitives (mutexes, locks, semaphores, barriers) - deadlocks and livelocks - communication between threads (condition variables, signals, message queues and pipes). UNIT-III Shared Memory Programming with OpenMP OpenMP Execution Model - Memory Model - OpenMP Directives - Work-sharing Constructs - Library functions - Handling Data and Functional Parallelism - Handling Loops - Performance Considerations. UNIT-IV Distributed Memory Programming with MPI MPI program execution - MPI constructs - libraries - MPI send and receive - Point-to-point and Collective communication - MPI derived datatypes - Performance evaluation UNIT-V Parallel Program Development Case studies - n-Body solvers - Tree Search - OpenMP and MPI implementations and comparison.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891198599339,"sku":"643278051","price":220.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333213769_3.jpg?v=1655496125"},{"product_id":"9789390041565-1","title":"Process Planning \u0026 Cost Estimation for BE Anna University R17 CBCS (VII-Mech. - ME8793)","description":"\u003cp\u003eUNIT IIntroduction to Process Planning Introduction - methods of process planning - Drawing interpretation - Material evaluation – steps in process selection -. Production equipment and tooling selection (Chapter - 1) UNIT IIProcess Planning Activities Process parameters calculation for various production processes - Selection jigs and fixtures election of quality assurance methods - Set of documents for process planning-Economics of process planning- case studies (Chapter - 2) UNIT IIIIntroduction to Cost Estimation Importance of costing and estimation –methods of costing-elements of cost estimation –Types of estimates – Estimating procedure- Estimation labor cost, material cost- allocation of over head charges- Calculation of depreciation cost (Chapter - 3) UNIT IVProduction Cost Estimation Estimation of Different Types of Jobs - Estimation of Forging Shop, Estimation of Welding Shop, Estimation of Foundry Shop (Chapter - 4) UNIT VMachining Time Calculation Estimation of Machining Time - Importance of Machine Time Calculation- Calculation of Machining Time for Different Lathe Operations, Drilling and Boring - Machining Time Calculation for Milling, Shaping and Planning -Machining Time Calculation for Grinding. (Chapter - 5)\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891201220779,"sku":"643278040","price":425.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789390041565_1.jpg?v=1655496202"},{"product_id":"9789390041152-1","title":"Control Systems  for JNTU-H 18 Course (II - II - EEE - EE404PC)  \u0026 (III - I - ECE - EC503PC)","description":"\u003cp\u003eUnit - I Introduction to Control Problem : Industrial Control examples. Mathematical models of physical systems. Control hardware and their models. Transfer function models of linear time-invariant systems. Feedback Control : Open-Loop and Closed-loop systems. Benefits of Feedback. Block diagram algebra. (Chapter - 1) Unit - II Time Response Analysis of Standard Test Signals : Time response of first and second order systems for standard test inputs. Application of initial and final value theorem. Design specifications for second order systems based on the time-response. Concept of Stability. Routh-Hurwitz Criteria. Relative Stability analysis. Root-Locus technique. Construction of Root-loci. (Chapter - 2) Unit - III Frequency-Response Analysis : Relationship between time and frequency response, Polar plots, Bode plots. Nyquist stability criterion. Relative stability using Nyquist criterion - gain and phase margin. Closed-loop frequency response. (Chapter - 3) Unit -IV Introduction to Controller Design : Stability, steady-state accuracy, transient accuracy, disturbance rejection, insensitivity and robustness of control systems. Root-loci method of feedback controller design. Design specifications in frequency-domain. Frequency-domain methods of design. Application of Proportional, Integral and Derivative Controllers, Lead and Lag compensation in designs. Analog and Digital implementation of controllers. (Chapter - 4) Unit -V State Variable Analysis and Concepts of State Variables : State space model. Diagonalization of State Matrix. Solution of state equations. Eigen values and Stability Analysis. Concept of controllability and observability. Pole-placement by state feedback. Discrete-time systems. Difference Equations. State-space models of linear discrete-time systems. Stability of linear discrete-time systems. (Chapter - 5)\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891203154091,"sku":"787","price":195.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789390041152_1.jpg?v=1655496351"},{"product_id":"9789333201087-3","title":"Compiler Design for JNTU-H 18 Course (III - II - CSE\/IT -CS602PC) \u0026 Principles of Compiler Construction (III-II) ( IT ) - R18 -  IT602PQ","description":"","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891204694187,"sku":"738","price":190.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333201087_3.jpg?v=1655496401"},{"product_id":"9789390450732-1","title":"Digital Electronics for DTEK 20 Course (I - ECE - 20EC11T)","description":"\u003cp\u003eUNIT - 1 : NUMBER SYSTEMS AND CODES UNIT - 2 : BASIC LOGIC CIRCUITS UNIT - 3 : ARITHMETIC CIRCUITS UNIT - 4 : MULTIPLEXERS AND DEMULTIPLXERS UNIT - 5 : ENCODERS AND DECODERS UNIT - 6 : LOGIC FAMILIES\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891213967531,"sku":"1028952546","price":225.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789390450732_1.jpg?v=1655496984"},{"product_id":"9789333215558-2","title":"ARM Controller for DTEK 15 Course (V - ECE - 15EC52T)","description":"\u003cp\u003eArm Controller 5th Sem Diploma \/Ece\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891215278251,"sku":"1028852831","price":180.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333215558_2.jpg?v=1655497066"},{"product_id":"9789333215657-2","title":"Web Programming for DTEK 15 Course (V - CSE\/ISE - 15CS52T)","description":"\u003cp\u003eWeb Programming 5th Sem Diploma Cs \u0026amp; E\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891216392363,"sku":"1028852822","price":230.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333215657_2.jpg?v=1655497130"},{"product_id":"9789333216173-2","title":"Green Computing for DTEK 15 Course (V - CSE\/ISE - 15CS54T)","description":"\u003cp\u003eUNIT I : Green IT : An Overview UNIT II : Green Devices and Hardware with Green Software UNIT III : Green Enterprises and the Role of IT UNIT IV : Managing Green IT UNIT V : Regulating the Green IT : Laws, Standards and Protocols UNIT VI : Green IT : An Outlook\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891216425131,"sku":"1028852827","price":110.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333216173_2.jpg?v=1655497134"},{"product_id":"9789333217767-2","title":"Applied Mathematics  for MSBTE  I  Scheme (II - Elex.\/Electrical\/Mech.\/Civil - 22210)","description":"\u003cp\u003eUnit - I    Differential Calculus 1.1 Functions and Limits : a)    Concept of function and simple examples. b)    Concept of limits without examples. 1.2    Derivatives : a) Rules of derivatives such as sum, product, quotient of functions. b)    Derivative of composite functions (chain Rule), implicit and parametric functions. c)    Derivatives of inverse, logarithmic and exponential functions. 1.3    Applications of derivative : a)    Second order derivative without examples. b)    Equation of tangent and normal. c)    Maxima and minima. d)    Radius of curvature.  Unit - II    Integral Calculus 2.1    Simple integration : Rules of integration and integration of standard functions. 2.2 Methods of Integration :     a) Integration by substitution     b) Integration by parts     c) Integration by partial fractions.  Unit - III    Applications of Definite Integration 3.1    Definite Integration :     a) Simple examples     b) Properties of definite integral (without proof)          and simple examples.  3.2    Applications of Integration :     a) Area under the curve.     b) Area between two curves.     c) Volume of revolution.  Unit - IV    First Order First Degree Differential Equations 4.1    Concept of differential equation. 4.2    Order, degree and formation of differential equation. 4.3    Solution of differential equation.     a) Variable separable form     b) Linear differential equation 4.4    Application of differential equations and related engineering problems.   Unit - V    Probability Distribution 5.1    Probability distribution.     a) Discrete probability distribution.     b) Continuous probability distribution. 5.2    Binomial distribution. 5.3    Poisson's distribution. 5.4    Normal distribution.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891217047723,"sku":"1029256300","price":325.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333217767_2.jpg?v=1655497145"},{"product_id":"9789333217583-2","title":"C Programming Language  for MSBTE  I  Scheme (II - Elex. - 22218) \u0026Programming in C for MSBTE  I  Scheme (II - Comp. - 22226)","description":"\u003cp\u003eUnit - I Overview of C Programming 1.1    Structure of 'C' program, Assembler, Linker, Compiler, Interpreter.  (Refer sections 1.6, 1.7 and 2.4) 1.2 'C' character set - keywords, identifiers, types of constants (Integer, single character, string, and real) variables, scope of variables, concept of ASCII.  (Refer sections 2.5, 2.8, Appendix A  and C) 1.3 Data types : integer - unsigned, signed, long, float - float, double, character - char, string, octal, hexadecimal.  (Refer section 2.7) 1.4 Algorithm and flow chart.  (Refer sections 1.2, 1.3 and 1.4) 1.5 Formatted inpurt and output statements, Input and output functions.  (Refer section 2.11) 1.6    Operators and expressions : a.    Operators in 'C' - arithmatic, logical assignment, relational, increment and decrement, conditional, bit wise, special operators. b.    Expressions c.     Precedance and associatively.  (Refer sections 2.9 and 2.10)  Unit - II Decision Control and Loop Control 2.1    Decision making if statement (if, if - else, nested if - else), switch - case statement.  (Refer section 3.1) 2.2    Repetition in 'C' (loop control statement) while, do - while and for loop, break and continue statement, nested loops.  (Refer section 3.2) Unit - III Array and Strings 3.1 Introduction to Array and its types  (Refer sections 4.1 and 4.2) 3.2  Declaration, initialization of array, accessing elements of an array, adding, deleting, sorting and searching.  (Refer section 4.3 and Appendix D) 3.3 Introduction to string Initializing, declaring and display of string.  (Refer section 4.4) 3.4    String handling functions from standard library (strlen (), strcpy (), strcat (), strcmp (), strlwr (), strupr() ):  (Refer sections 4.5 and 4.6) Unit - IV Functions 4.1 Concept and need of functions.  (Refer section 5.1) 4.2    Library functions : Math functions, String handling functions, other miscellaneous functions.  (Refer section 5.2) 4.3    Writing User defined functions, scope of variables. (Refer section 5.3) 4.4 Parameter passing : call by value, call by reference. (Refer section 5.4) 4.5 Recursive functions. (Refer section 5.5) Unit - V Pointers 5.1    Concept of pointer and pointer variables, initialization of pointer, call-by-reference. (Refer section 6.1) 5.2 Pointer arithmetic. (Refer section 6.2) 5.3    Handling arrays using pointers.  (Refer section 6.3) 5.4    Handling functions using pointers. (Refer section 6.4) Unit - VI Structures 6.1    Introduction and Features and Syntax of structure. (Refer section 4.7) 6.2    Declaration and Initialization of Structures.  (Refer sections 4.7.1 and 4.7.2) 6.3    Initializing, assessing structure members using pointers. (Refer section 4.7.3) 6.4    Type def., Enumerated Data Type, using structures in C Program.  (Refer sections 4.8 and 4.9) 6.5    Operations on structure.  (Refer sections 4.10 and 6.5) Programming in 'C' (22226)  Computer Engineering Group (CO \/ CM \/ IF \/ CW)  Unit - I Program Logic Development 1.1    Fundamentals of algorithms : Notion of an algorithm, Pseudo - code conventions like assignment statements and basic control structures. 1.2    Algorithmic problems : Develop fundamental algorithms to solve simple problems such as : i) Solve simple arithmetic expression, ii) Find the greatest of three numbers,  iii) Determine whether a given number is even or odd,  iv) Determine whether a given number is prime. 1.3    Flowchart : Flowchart, Symbols of flowchart, Guidelines for preparing Flowchart. Unit - II Basics of C programming 2.1    Introduction to C : History of 'C' General Structure of a 'C' program : Header files, 'main ' function. 2.2    Data Concepts : Character set, tokens, keywords, Identifiers, Variables, Constant, data types, C operators, Arithmetic operators, Arithmetic expression, declaring variables and data type conversion. 2.3    Basic Input output : Input and output statements, using printf() and scanf(), character input\/output statements, input\/output formatting, Use of comments. Unit - III Control Structures 3.1    Decision making and branching : Relational and logical operators, if statement, if else statement, nested if - else, if - else ladder' The switch statements. 3.2    Looping :  While loop, Do ... While loop, For loop, Go to statement, Use of break and continue statements.  Unit - IV Array and Structure 4.1    Characteristics of an array, One dimension and two dimension arrays. 4.2    Array declaration and Initialization 4.3    Array of characters, Operation on array 4.4    Character and String input\/output 4.5    Introduction and Features of Structures, Declaration and Initialization of Structures. 4.6    Type def, Enumerated Data Type, using structures in C Program  Unit - V Functions 5.1    Concept and need of functions 5.2    Library functions : Math functions, String handling functions, other miscellaneous functions. 5.3    Writing User defined functions, scope of variables. 5.4    Parameter passing : call by value, call by reference. 5.5    Recursive functions.   Unit - VI Pointers 6.1    Concepts of pointers; declaring, initializing, accessing. 6.2    Pointer arithmetic. 6.3    Handling arrays using pointers 6.4    Handling functions using pointers 6.5    Handling structures using pointers.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891217146027,"sku":"1029261190","price":185.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333217583_2.jpg?v=1655497155"},{"product_id":"9789333217415-3","title":"Basic Electronics for MSBTE  I  Scheme (II - Comp. - 22225)","description":"\u003cp\u003eUnit - I    Electronic Components and Signals 1.1    Active and passive components. 1.2    Resistor, capacitor, inductor symbols, working principles, applications, colour codes, specifications. 1.3    Voltage and current Source. 1.4 Signal Waveform, Time and frequency domain representation, Amplitude, Frequency, Phase, Wavelength. 1.5    Types of Signals : Sinusoidal, triangular and square. 1.6    Integrated Circuits - analog and digital.  Unit - II    Diodes and their Applications 2.1    Symbol, construction and working pronciple of P - N junction diode. 2.2 Rectifiers : Half wave, Full wave and Bridge Rectifier, working principle, circuit diagram, performance parameters PIV, ripple factor, efficiency, Need for filters : Circuit diagram and working of  'L', 'C' and '' filter. 2.3    Zener diode working principle, symbol, as voltage regulator. 2.4    Symbol, construction and working principle of Light Emitting Diode (LED). 2.5    Working principle and block diagram of regulated power supply.  Unit - III    Bipolar Junction Transistor 3.1    Unipolar and bipolar devices. 3.2    Symbol, construction and working principle of  NPN transistor. 3.3    Transistor as switch and amplifier. 3.4    CE, CB and CC configurations. 3.5    Regions - Cut - off, saturation and Active region. 3.6    Transistor parameters - alpha, beta, input and output resistance and relation between alpha and beta. 3.7 Transistor biasing - DC load line, Q - point and Fix bias and voltage divider biasing. 3.8  RC coupled amplifier  Unit - IV    Field Effect Transistors 4.1    FET - types : JFET and MOSFET. 4.2    Classification of JFET. 4.3    Symbol, construction and working principle of N - channel and P - channel JFET, Drain and transfer characteristics of JFET. 4.4    JFET parameters : DC and AC drain resistance, Transconductance, amplification factor. 4.5    Symbol, construction and working principle of MOSFET    Unit - V    Sensors and Transducers 5.1    Working of sensors and transducers. 5.2    Selection criteria for transducers. 5.3    Active and passive transducers. 5.4    Inductive, capacitive, resistive pressure and piezoelectric transducer. 5.5    Photodiode and phototransistor transducers. 5.6    Thermocouple and Proximity sensors.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891217277099,"sku":"1801353028","price":140.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333217415_3.jpg?v=1655497168"},{"product_id":"9789333217620-1","title":"Applied Science - Physics for MSBTE  I  Scheme (II - Electrical - 22211)","description":"\u003cp\u003eUnit - I    Electricity and Capacitance 1.1    Capacitors and capacitance. 1.2    Parallel plate capacitor, effect of dielelctric on capacitance 1.3    Combination of capacitors, energy stored in a capacitor 1.4    Cells, emf of cell, internal resistance of cell, kirchoff's laws, Wheatstone's bridge. 1.5    Potential gradient, potentiometer.  Unit - II    Radioactivity and Ultrasonic Waves 2.1    Radioactivity,  particles \/ rays and their properties. 2.2    Radioactive decay law, half-life period. 2.3    Sound waves, amplitude, frequency, time-period wavelength and velocity of wave, relation between velocity, frequency and time period of wave. 2.4    Ultrasonic waves, properties of ultrasonic waves, 2.5    Piezo-electric effect, Piezo materials; Natural; Quartz, synthetic : Gallium orthophosphate. 2.6    Generation of ultrasonic waves using Piezo electric effect. 2.7    Applications of ultrasonic waves, 2.8    Doppler effect and its applications.   Unit - III    Photoelectricity, X-Rays and LASERs 3.1    Planck's hypothesis, properties of photons, photoelectric effect : threshold frequency, threshold wavelength, stopping potential, work function, characteristics of photoelectric effect. Einstein's photoelectric equation 3.2    Photoelectric cell and LDR principle, working and applications. 3.3    Production of X-ray by Modern Coolidge tube, Properties and applications of X-rays. 3.4    Laser, properties of laser, absorption, spontaneous and stimulated emission.3.5    Population inversion, active medium, optical pumping, three energy level system, He-Ne laser applications of laser.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891217309867,"sku":"1801356887","price":75.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333217620_1.jpg?v=1655497173"},{"product_id":"9789333217699-1","title":"Applied Science - Chemistry for MSBTE  I  Scheme (II - Electrical - 22211)","description":"\u003cp\u003eUnit - I     Water treatment and analysis 4.1.    Hardness : Types of hardness, soap solution method, EDTA method.  4.2.    Effect of hard water in boilers and prevention : Boiler corrosion caustic embrittlement, priming and foaming, scales and sludges  4.3.    Water softening : Lime soda process (hot lime soda and cold lime soda process), zeolite process, ion exchange process (cation exchange and anion exchange) 4.4.    Municipal water treatment : Sedimentation, coagulation, filteration and sterilization 4.5.    Waste water : Characteristics BOD and COD, Sewage treatment, recycling of waste water. 4.6.    De-salination process by reverse osmosis. Unit - II     Electro chemistry and batteries 5.1    Electrical conductance in metals and electrolytes specific conductance equivalent conductance cell constant.  5.2    Conductance : Nature of solute, nature of solvent temperature concentration or dilution.  5.3    Electrodes : Hydrogen electrode, calomel electrode and glass electrode.  5.4    Conductometric Titration : 5.5    Batteries - Dry cell, alkaline battery, lead acid storage cell and Ni-Cd battery. H2 - O2 fuel cell. Lithium ion battery. Unit - III     Metals, Alloys and Insulators 6.1    Properties of metals like copper, Aluminium, tungsten, platinum nickel. 6.2    Thermocouple alloy : Composition and characteristics of nickel alloy, platinum\/rhodium, tungsten\/rhenium, chromel-gold\/iron. 6.3    Electrical insulators : Classification, Solic - ceramics, mica, asbestos, urea formaldehyde resin and glass, liquid – silicon fluid, gaseous-inert gases, hydrogen and nitrogen gas.  6.4    Types of rubber : Natural and synthetic, processing of natural rubber. Synthetic rubber : Properties and applications of Buna-N, Thiokol, Neoprene.  6.5    Process industry unit operations : Evaporation, condensation, Distillation, Energy balance and mass balance for above processes. 6.6    Nanomaterials : Applications of Fullerence, Graphene\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891217342635,"sku":"1801360180","price":80.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333217699_1.jpg?v=1655497177"},{"product_id":"9789333200295-3","title":"Java Programming for MSBTE  I  Scheme (IV - Comp.- 22412)","description":"\u003cp\u003eUnit - I    Basic Syntactical Constructs in Java 1.1    Java Features and the Java Programming Environment, Object Oriented, Compiled, Interpreted, Platform independent, Portable, Robust and Secure, Dynamic. l.2    Defining a class. creating object, accessing class members 1.3    Java Tokens and Data types, Constants and Symbolic Constants, variables, dynamic initialization, data types, array and string, scope of variable, typecasting, and standard default values. 1.4    Operators and Expressions, Arithmetic Operators, Relational Operators, Logical Operators, Increment and Decrement, Conditional Operators, Bit wise Operators, Instance of Operators, Dot Operators, Operator precedence and associativity, Evaluation of Expressions, Type conversions in expressions, Mathematical Functions - min(),max(), sqrt(), pow(), exp(), round(), abs(). 1.5    Decision making and looping: If statement, if else statement, nested if else statement, if else if ladder, the switch statement, nested switch statement, The ?: operator, The while statement, the Do while statement, the 'for' statement, break, continue and return statement, nested loops, labeled loops, for-each version of the for loop.    Unit - II    Derived Syntactical Constructs in Java 2.1    Constructors and methods, types of constructors, nesting of methods, argument passing the 'this' keyword, command line arguments, varargs: variable-length arguments, garbage  collection, finalize() method, the object class. 2.2    Visibility control public, Private Protected default, friendly private Protected access.  2.3    Arrays and Strings: Types of arrays. creating an array, strings, string classes and string buffer, vectors, wrapper classes, enumerated types.  Unit - III    Inheritance, Interface and Package 3.1    Inheritance: concept of inheritance, Types of Inheritance 3.2    Single Inheritance. multilevel Inheritance. Hierarchical Inheritance. method and constructor overloading and overriding. dynamic method dispatch, final variables, final methods, use of super, abstract methods and classes, static members. 3.3    Interfaces: Define Interface, implementing interface, accessing interface, variables and methods, extending interfaces, interface references, nested interfaces 3.4    Package: Define package, type of package naming and creating packages, accessing package, import statement, static import, adding class and interfaces to a package.  Unit - IV    Exception Handling and Multithread-ing 4.1    Errors and Exception : Types of errors, exceptions, try and catch statement, nested try statement, throws and Finally statement, build-in exceptions, chained exceptions, creating own exception (throw clause), subclasses. 4.2    Multithreaded Programming Creating a Thread : By extending to thread class and by implementing runnable Interface, Life cycle of thread : Thread Methods : wait(), sleep(), notify(), resume(), suspend(), stop(). Thread exceptions. thread priority and methods, synchronization, interthread communication, deadlock.   Unit - V    Java Applets and Graphics Programm -ing 5.1    Introduction to applets : Applet, Applet life  cycle (skeleton), Applet tag, Adding Applet to HTML file, passing parameter to applet, embedding  tags in java code, adding controls to applets. 5.2    Graphics Programming : Graphics classes, lines, rectangles, ellipse, circle, arcs. polygons, color and fonts, setColor(). getColor(), setForeGround(), setBackGround(), font class, Variable defined by font class : name, pointSize size, style, font methods : getFamily(). getFont(), getFontname (), getSize(). getStyle(), getAllFonts() and get available font family name() of the graphics environment class.   Unit - VI    Mananging Input \/ Ouput \/ Files in Java 6.1    Introduction and Concept of Streams. 6.2    Stream Classes. 6.3    Byte Stream Classes : Input Stream Classes, Output Stream Classes. 6.4    Character Stream Classes. Using streams. 6.5    Using File Class : I\/O Exceptions, Creation of Files, Reading\/Writing characters, Reading\/Writing Bytes, Handling Primitive data types.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891217572011,"sku":"987106217","price":205.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333200295_3.jpg?v=1655497182"},{"product_id":"9789333217712-2","title":"Basic Surveying for MSBTE  I  Scheme (II - Civil - 22205)","description":"\u003cp\u003eUnit - I Overview and Classification of Survey 1.1    Survey-purpose and use, principles of survey. l.2    Types of surveying-primary and secondary classification plane, geodetic, military, engineering cadastral, hydrographic, photogrammatry and areal surveying. 1.3    Scales : Engineer's scale, RF and diagonal scale. Unit - II Chain and Cross Staff Survey 2.1    Chain survey instruments : Metric Chain, Tapes, Arrow, Ranging rod, Open cross staff, optical square (No questions to be asked for exams) 2.2    Chain survey Station, Base line, Check line, Tie line, Offset, Tie station, obstacles in chaining; Types of offsets : Perpendicular and Oblique 2.3    Ranging : Direct and Indirect Ranging (No questions to be asked for exams) 2.4    Errors in length : Instrumental error, personal error, error due to natural cause, random error. 2.5    Principal of triangulation 2.6    Location Sketch of survey station and running measurements of building. 2.7    Conventional Signs Recording of measurements in a field book. 2.8    Area calculations (Numerical problems) Unit - III Chain and Compass Traverse Survey 3.1    Compass Traversing : open, closed. 3.2    Technical Terms : Geographic\/True Magnetic and Arbitrary Meridians and Bearings, Meridian and Bearing, Whole Circle Bearing System (Azimuth) and Reduced (Quadrantal) Bearing System and examples on conversion of given bearing to another bearing (from one form to another), Fore Bearing and Back Bearing, Calculation of internal and external angles from bearings at a station. Dip of Magnetic needle, Magnetic Declination. (Numerical Problems) 3.3    Components of Prismatic Compass and their Functions (No sketch), Method of using Prismatic Compass-temporary adjustments and observing bearings. 3.4    Local attraction, Methods of correction of observed bearings-Correction at station and correction to included angles, 3.5    Methods of plotting a traverse and closing error, Graphical adjustment of closing error. Unit - IV Levelling 4.1    Terminologies : Level surfaces, level line, Horizontal and vertical surfaces, Datum, Bench Marks-GTS, Permanent, Arbitrary and Temporary, Reduced Level, Rise, Fall, Line of collimation, Station, Back sight, Fore sight, intermediate sight, Change point, Height of instruments.  4.2    Types of level : Dumpy, Tilting, Auto level, Digital level, Components of Dumpy Level and its fundamental axes. Temporary adjustments of Level.  4.3    Type of Leveling staffs : Self-reading staff and Target staff. 4.4    Reduction of level by line of collimation method and Rise\/Fall method 4.5    Methods : To find the R.L by H.I. method (Numerical problems) 4.6    To find R.L. by Rise and Fall Methods with necessary checks (Numerical problems) 4.7    Leveling Types : Simple, Differential, Fly, Profile and Reciprocal leveling.  4.8    Computation of missing readings, Errors in Leveling. (Numerical problems) 4.9    Comparison of different levels Unit - V Contouring 5.1    Contour, contour interval, horizontal equivalent. 5.2    Contour maps : Characteristics and uses 5.3    Methods of Contouring : Direct and indirect 5.4    Methods of interpolation of contours : approximate, arithmetic and graphical 5.5    Toposheets : Study Unit - VI Measurement of Area and Volume 6.1    Digital planimeter : Components and uses. 6.2    Measurement of area using digital planimeter. (No problems to be asked for exams) 6.3    Measurement of volume of reservoir from contour map.  (No problems to be asked for exams)\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891217899691,"sku":"1801383622","price":95.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333217712_2.jpg?v=1655497212"},{"product_id":"9789333200462-2","title":"Software Engineering for MSBTE  I  Scheme (IV - Comp. - 22413)","description":"\u003cp\u003eUnit - I Software Development Process 1.1    Software, Software Engineering as layered approach and its characteristics, Types of software. l.2    Software development framework. 1.3    Software Process Framework, Process models : Perspective Process Models, Specialized Process Models. 1.4    Agile Software development : Agile Process and its importance, Extreme Programming, Adaptive Software Development, Scrum, Dynamic Systems Development Method (DSDM), Crystal. 1.5    Selection criteria for software process model. Unit - II Software Requirement Engineering 2.1    Software Engineering Practices and its importance, Core principles. 2.2    Communication Practices, Planning Practices, Modelling practices, construction practices, software deployment (Statement and meaning of each principle for each practice).  2.3    Requirement Engineering : Requirement Gathering and Analysis, Types of requirements (Functional, Product, organizational, External Requirements), Eliciting Requirements, Developing Use - cases, Building requirement models, Requirement Negotiation, Validation. 2.4    Software Requirement Specification : Need of SRS, Format, and its Characteristics. Unit - III Software Modelling and Design 3.1    Translating Requirement model into design model : Data Modelling. 3.2    Analysis Modelling : Elements of Analysis model. 3.3    Design modelling : Fundamental Design Concepts (Abstraction, Information hiding, Structure, Modularity, Concurrency, Verification, Aesthetics). 3.4    Design notations : Data Flow Diagram (DFD), Structured Flowcharts, Decision Tables. 3.5    Testing - Meaning and purpose, testing methods - Black Box and White - box, Level of testing - Unit testing. 3.6    Test Documentation - Test Case Template, test plan, Introduction to defect report, test summary report. Unit - IV Software Project Estimation 4.1    The management spectrum - 4P's. 4.2    Metrics for Size Estimation : Line of Code (LoC), Function Points (FP). 4.3    Project Cost Estimation Approaches : Overview of Heuristic, Analytical, and Empirical Estimation. 4.4    COCOMO (Constructive Cost Model), COCOMO II. 4.5    Risk Management : Risk Identification, Risk Assessment, Risk Containment, RMMM strategy.  Unit - V Software Quality Assurance and Security 5.1    Project Scheduling : Basic Principles, Work breakdown structure, Activity network and critical path Method, Scheduling tachniques (CPM, PERT). 5.2    Project Tracking : Timeline charts, Earned Value Analysis, Gantt Charts. 5.3    Software Quality Management vs. Software Quality Assurance     Phases of Software Quality Assurance : Planning, Activities, audit, and review. 5.4    Quality Evaluation standards : Six Sigma, ISO for software, CMMI : Levels, Process areas. 5.5    Software Security, Introduction to DevOps, Secure software engineering.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891217932459,"sku":"987106224","price":100.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333200462_2.jpg?v=1655497217"},{"product_id":"9789333200356-2","title":"Microprocessors for MSBTE  I  Scheme (IV - Comp. - 22415)","description":"\u003cp\u003eUnit - I 8086-16 Bit Microprocessor 1.1    8086 Microprocessor : Salient features, Pin descriptions. l.2    Architecture of 8086 : Functional Block Diagram, Register organization. 1.3    Concepts of pipelining. 1.4    Memory segmentation, Physical memory addresses generation. Unit - II The Art of Assembly Language Programming 2.1    Program development steps : Defining problem and constraints, Writing Algorithms, Flowchart, Initialization chacklist, Choosing instructions, Converting algorithms to assembly language programs. 2.2    Assembly language Programming Tools : Editors, Assembler, Linker, Debugger.  2.3    Assembler directives. Unit - III Instruction Set of 8086 Microprocessor 3.1    Machine Language Instruction format. 3.2    Addressing modes. 3.3    Instruction set, Groups of Instructions : Arithmetic instructions, Logical Instructions, Data Transfer instructions, Bit manipulation instructions, String Operation instructions, Program control transfer or branching instructions, Process control instructions. Unit - IV Assembly Language Programming 4.1    Model of 8086 assembly language  programs. 4.2    Programming using assembler : Arithmetic operations on Hex and BCD numbers,  Sum of Series, Smallest and Largest  numbers from array, Sorting numbers in Ascending and Descending order, Finding  ODD, EVEN, Positive and Negative numbers in the array, Block transfer,  String Operations ­ Length, Reverse,  Compare, Concatenation, Copy, Count Numbers of '1' and '0' in 16 bit number.  Unit - V Procedure and Macro 5.1    Procedure : Defining and calling Procedure - PROC, ENDP, FAR and NEAR Directives; CALL and RET instructions; Parameter passing methods, Assembly Language Programs using Procedure. 5.2    Macro : Defining Macros, MACRO and ENDM Directives, Macro with parameters, Assembly Language Programs using Macros. Unit - VI Mananging Input \/ Ouput \/ Files in Java 6.1    Introduction and Concept of Streams. 6.2    Stream Classes. 6.3    Byte Stream Classes : Input Stream Classes, Output Stream Classes. 6.4    Character Stream Classes. Using streams. 6.5    Using File Class : I\/O Exceptions, Creation of Files, Reading\/Writing characters, Reading\/Writing Bytes, Handling Primitive data types\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891218292907,"sku":"987106238","price":125.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333200356_2.jpg?v=1655497226"},{"product_id":"9789333200097-2","title":"Theory of Machines for MSBTE  I  Scheme (IV - Mech. - 22438)","description":"\u003cp\u003eUnit - I Fundamentals and type of Mechanisms  1.1    Kinematics of Machines : Introduction to Statics; Kinematics, Kinetics, Dynamics : Kinematic links, joints, pairs, chain and its types, constrained motion and its types, Inversion, Mechanism, Machine and structure. 1.2    Inversions of Kinematic Chains and their materials :     Four bar chain - Locomotive coupler, Beam engine and Pantograph.     Single slider Crank chain - Pendulum pump, Rotary I.C. engine mechanism, Oscillating cylinder engine, Whitworth quick return mechanism Quick return mechanism of shaper; Double slider chain - Scotch Yoke mechanism, Elliptical trammel, Oldham's Coupling. Unit - II Velocity and Acceleration in Mechanisms 2.1    Concept of relative velocity and relative acceleration of a point on a link, angular acceleration, inter - relation between linear and angular velocity and acceleration. 2.2    Analytical method and Klein's construction to determine velocity and acceleration of different links in single slider crank mechanism. 2.3    Drawing of velocity and acceleration diagrams for simple mechanisms. Determination of velocity and acceleration of point on link by relative velocity method (Excluding Coriollis component of acceleration). Unit - III Cams and Followers 3.1    Introduction to Cams and Followers. Cam and follower terminology, Classification of Cams and Followers. Applications of Cams and Followers. 3.2    Types of follower motions and their displacement diagrams - Uniform velocity, Simple harmonic motion, uniform acceleration and retardation. 3.3    Drawing of profile of a radial cam based on given motion of reciprocating knife - edge and roller follower with and without offset. Unit - IV Belt, Chain and Gear Drives 4.1    Belt Drives - Introduction to Flat belt, V - belt and its applications, materials used for flat and V - belts. Introduction of timing belt and pulley, Angle of lap, length of belt, Slip and creep. Determination of velocity ratio of tight side and slack side tension, centrifugal tension and initial tension, condition for maximum power transmission, Merits, demerits and selection of belts for given applications. 4.2    Chain Drives - Introduction to chain drives, Types of chains and sprockets, Methods of lubrication, Merits, demerits and selection of chains for given applications. 4.3    Gear Drives - Introduction to gear drives, Classification of gears, Law of gearing, gear terminology, Types of gear trains, Train value and velocity ratio for simple, compound, reverted and epicyclic gear trains using spur and helical gears. Merits, demerits and selection of gear drives for given applications. Unit - V Brakes and Clutches 5.1    Introduction to Brakes - Types, Functions and Applications. 5.2    Construction and principle of working of i) Shoe brake, ii) Band brake, iii) Internal expanding shoe brake iv) Disk Brake. 5.3    Braking force, braking torque and power for shoe and band brake. 5.4    Clutches - Uniform pressure and Uniform Wear theories, Introduction to Clutch - Types, Functions and Applications, Construction and principle of working of :     a. Single - plate clutch     b. Multi - plate clutch     c. Centrifugal clutch     d. Cone clutch     e. Diaphragm clutch. Unit - VI Flywheels, Governors and Balancing 6.1    Flywheel - Introduction to Flywheel - need, function and application of flywheel with the help of turning moment diagram for single cylinder 4 - Stroke I.C. Engine.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891218325675,"sku":"987106117","price":125.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333200097_2.jpg?v=1655497231"},{"product_id":"9789333200103-2","title":"Mechanical Engineering Measurements for MSBTE  I  Scheme (IV - Mech. - 22443)","description":"\u003cp\u003eUnit - I Introduction to Measurement [Marks 12] 1.1    Types of measurement, Classification of instruments, Static terms and characteristics - Range and Span, Accuracy and Precision, Reliability, Calibration, Hysteresis and Dead zone, Drift, Sensitivity, Threshold and Resolution, Repeatability and Reproducibility, Linearity. Dynamic characteristics - Speed of response, Fidelity and Dynamic errors, Overshoot. l.2    Measurement of error - Classification of errors, environmental errors, signal transmission errors, observation errors, operational errors. 1.3    Classification of transducers, active and passive, contact non contact, mechanical electrical, analog digital. Unit - II Displacement, Force and Torque Measurement [Marks 12] 2.1    Specification, selection and application of displacement transducer. Capacitive transducer, Potentiometer, LVDT, RVDT. 2.2    Force Measurement System - characteristic of force measurement, creep curve for force transducer. 2.3    Force and Load Sensors - Types of Load cell, load cell applications, construction and working of Quartz force sensor, Force rings 2.4    Torque Measurement - Inline and Reaction Torque measurement 2.5    Torque sensors - construction and working of Slip ring, Rotary Transformer, Infrared sensor, FM Transmitter. 2.6    Dynamometers - construction and working of Transmission dynamometer, absorption dynamometer, Eddy current Dynamometer. Unit - III Pressure and Temperature Measurement [Marks 12] 3.1    Pressure Measurement - Low pressure gauges - McLeod Gauge, Thermal conductivity gauge, Ionization gauge, Thermocouple vacuum gauge, Pirani gauge, High Pressure gauge - Diaphragm, Bellows, Bourden tube, Electrical resistance type, Photoelectric pressure Transducers, piezoelectric type. 3.2    Non - electrical methods - Bimetal, Liquid in glass thermometer and Pressure thermometer. 3.3    Electrical methods - RTD, Platinum resistance thermometer, Thermistor, Thermoelectric methods - elements of thermocouple, Seebeck series, law of intermediate temperature, law of intermediate metals, thermo emf measurement. 3.4    Pyrometers - Working and Principle of Radiation and Optical Pyrometer. Unit - IV Flow Measurement [Marks 12] 4.1    Types of flow meter, Selection criteria for flow meter, classification. 4.2    Flow meters - application and construction of Orifice, venture tube, segmental wedges, pilot tube, Dall Tube. 4.3    Variable area Meter - construction, working and principle of Rota meter, anemometer. 4.4    Positive Displacement Flow meter - construction, advantages and disadvantages of Coriolis flow meter, Oscillating piston flow meter, Rotating vane flow meter. 4.5    Ultrasonic flow meter - application and construction of Doppler and Transit time ultrasonic flow meter. Unit - V Vibration and Strain Measurement [Marks 10] 5.1    Concept of natural frequency, free body diagram and spring mass system. 5.2    Vibration measurement element - principle and working of velocity pickup, Accelerometer, Inductive Pick Up, Capacitive Pick Up, Stroboscope. 5.3    Introduction to FFT Analyzer, working and application. 5.4    Types of Strain gauges - bonded and  unbounded, gauge factor, strain gauge selection criteria. 5.5    Methods of strain measurement - Axial, bending, Torsional. 5.6    Construction of foil, semiconductor and wire wound strain gauge. Unit - VI Miscellaneous Measurement Sound, speed and humidity measurements [Marks 12] 6.1    Sound measurement, principle of Electro dynamic microphone and Carbon microphone. 6.2    Speed measurement - working and principle of Eddy current generation type tachometer, incremental and absolute type, Mechanical Tachometers, Revolution counter and timer, stipping clutch tachometer, Electrical tachometers, Contact less Electrical tachometer. 6.3    Humidity measurement - working and principle of Hair hygrometer, Sling psychomotor.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891218391211,"sku":"987106123","price":95.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333200103_2.jpg?v=1655497236"},{"product_id":"9789333200066-2","title":"Manufacturing Processes for MSBTE  I  Scheme (IV - Mech. - 22446)","description":"\u003cp\u003e1.3    Drill Machine : Classification, specifications of radial drilling machine. Basic parts of radial drilling machine, sensitive drilling and their functions. Drilling machine operations like drilling, reaming, boring, counter sinking, counter boring, spot facing. Cutting parameters - speed, feed, depth of cut and machining time. Unit - II Shaping \/ Slotting Machines 2.1    Shaping Machine : Principle of working, classification, specification of standard shaper. Basic parts of standard shaping machine and their functions. Quick return mechanism, Different shaping operations. 2.2    Slotting Machine : Principle of working, classification, specification, Basic parts of Slotting machine and their functions. Unit - III Casting Processes and Plastic Moulding 3.1    Pattern making : Basic steps in making pattern, types, materials and allowances. 3.2    Colour coding of patterns. 3.3    Moulding : Types of moulding sands, properties of sand, moulding methods, cores and core prints. Elements of gating system, Bench and floor moulding methods. 3.4    Casting : Safety practices\/ precautions in foundary shop. Furnaces, construction and working of cupola furnace, electrical arc furnace, Centrifugal Casting  - Method and application, Casting defects - Causes and remedies. 3.5    Plastic : Types of plastic; Plastic processing like Calendering and vacuum forming. 3.6    Plastic mouldling methods : Compression moulding, Injection moulding, Blow moulding and Extrusion, Applications of plastic moulding methods. Unit - IV Forming Processes 4.1    Drop forging : Introduction to forging, Upset forging, press forging, open die and closed die forging operations. 4.2    Rolling : Principle of rolling, hot and cold rolling, Types and applications of rolling mill.  4.3    Extrusion : Direct and indirect extrusion, Advantages, disadvantages, applications of extrusion processes. Unit - V Joining Processes 5.1    Welding Processes : Gas welding, carbon arc welding, shielded metal arc welding, TIG welding, MIG welding, plasma arc welding, resistance welding types - spot, seam and projection, Electron beam welding, laser beam welding, welding defects. 5.2    Introduction to soldering and brazing : Process, fillers, heating methods and applications.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891218456747,"sku":"987106130","price":125.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333200066_2.jpg?v=1655497245"},{"product_id":"9789389180374-1","title":"Environmental Studies for MSBTE  I  Scheme (IV - Mech.\/Civil - 22447) \u0026  (V - CO\/CM\/CW - 22447)","description":"\u003cp\u003eUnit - I    Environment 1.1    Definitions, need of environmental studies. 1.2    Segments of  environment Atmosphere,  Hydrosphere, Lithosphere, Biosphere. 1.3    Environmental  Issues - Green house effects, Climate change, Global warming, Acid rain Ozone layer depletion, Nuclear accidents.  1.4    Concept of 4R (Reduce, Reuse, Recycle and Recover). 1.5    Public awarness about environment. Unit - II    Energy Resources 2.1    Natural  Resources-Forest  Resources, Water Resources, Energy Resources, Land resources, Mineral resources. 2.2    Renewable, Non-renewable  and     Cyclic Resources. 2.3    Causes and effects of depletion of resources. 2.4  Energy forms (Conventional  and non­conventional). 2.5    Present global energy use and future demands. 2.6     Energy conservation. 2.7    Over use of natural resources and its impacts on environment. Unit - III     Ecosystem and Biodiversity 3.1    Ecosystem - Definition , Aspects of ecosystem, Division of ecosystem, General characteristics of ecosystem, Functions of ecosystem. 3.2    Biodiversity- Definitions, Levels, Value and loss of biodiversity. 3.3.    Biodiversity assessment  initiatives  in India. 3.4    Threats  and   Hotspots  of biodiversity. 3.5    Conservations of biodiversity- objects, various laws. Unit-IV     Environmental Pollution 4.1    Definition of pollution, types Natural and Artificial (Man-made). 4.2    Soil \/ Land Pollution - Causes and effects on environment and lives, presentive measures. 4.3    Water pollution - Sources of water (surface and sub surface), source of water pollution effect on environemnt and lives, preventive measures, BIS water quality standards, flow diagram of  water treatment  plant, Water conservation. 4.4    Waste water - Generation (domestic and industrial), Impacts, flow diagram of sewage treatment plant, CPCB norms of sewage discharge. 4.5    Air pollution - Causes, effects prevention, Ambient air quality standards.   4.6    Noise pollution - Sources,  effects, prevention, noise  levels  at various zones of the city. 4.7    Municipal  Solid  Waste, Bio-medical waste and E-waste - Sources, generation, characteristics,  effects, and method to manage. Unit-V     Social Issues  and Environmental Education 5.1    Article (48-A) and (51-A  (g))   of Indian Constitution regarding environment,  Environmental, protection and prevention    acts, CPCB and MPCB norms and responsibilities, The role ofNGOs. 5.2    Concept    of   sustainable development,  EIA   and environmental morality.  5.3    Management Measures - Rain Water harvesting, Ground water   recharge, Green Belt  Development,  Use  of Renewable  energy, water shed management, interlinking of rivers. 5.4    Role of information  technology  in environment and human health.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891218489515,"sku":"642892402","price":120.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789389180374_1.jpg?v=1655497249"},{"product_id":"9789333200011-2","title":"Hydraulics for MSBTE  I  Scheme (IV - Civil - 22401)","description":"\u003cp\u003eUnit - I  Pressure measurement  1.1    Technical terms used in Hydraulics fluid, fluid mechanics, hydraulics, hydrostatics, and hydrodynamics-ideal and real fulid, application of hydraulics in civil engineering field. 1.2    Physical properties of fluid-density-specific volume, specific gravity-surface tension-capillarity, viscosity-Newton's law of viscosity 1.3    Various types of pressure-Atmospheric pressure-Gauge pressure-absolute pressure-vaccume pressure, concept of pressure head and its unit, Pascal's law of fluid pressure and its uses. 1.4    Conversion of pressure head of one liquid in terms of other liquid. 1.5    Measurement of pressure by different methods (By piezometer, simple manometers and Bordon pressure gauge) 1.6    Measurement of different of pressure by differential U tube manometers and inverted U tube manometers. Unit - II Hydrostatics 2.1    Variation of pressure with depth, pressure diagram-concept and use 2.2    Total hydrostatic pressure and center of pressure on immersed surfaces and on tank walls 2.3    Determination of total pressure and center of pressure on vertical, inclined and horizontal immersed surfaces. 2.4    Determination of total pressure and center of pressure on sides and bottom of water tanks, sides and bottom of tanks containing two liquids, vertical surface in contact with liquid on either side Unit - III Fluid Flow Parameters 3.1    Types of flow - Gravity and pressure flow, Laminar-Turbulent-Uniform-Non- uniform-Steady-Unsteady flow 3.2    Reynold's number 3.3    Discharge and its unit, continuity equation of flow. 3.4    Energy of flowing liquid : potential, kinetic and pressure energy. 3.5    Bernoulli's theorem : statement, assumptions, equation and modified Bernoulli's theorem Unit - IV Flow through Pipes 4.1    Major head loss in pipe : Frictional loss and its computation by Darcy Weisbach equation       =  4.2    Minor losses in pipe : loss at entrance, exit, sudden contraction, sudden enlargement and fittings. 4.3    Flow through pipes in series, pipes in parallel and Dupit's equation for equivalent pipe 4.4    Hydraulic gradient line and total energy line 4.5    Water hammer in pipes : causes and Remedial measures 4.6    Use of Moody's Diagram and Nomograms. 4.7    Discharge measuring device for pipe flow : Venturimeter-construction and        working 4.8    Discharge measuring for a tank : using Orifice, Hydraulic coefficients of orifice. Unit - V Flow through Open Channel 5.1    Geometrical properties of channel section : Wetted area, wetted perimeter, hydraulic radius for rectangular and trapezoidal channel section. 5.2    Determination of discharge by Chezy's equation and Manning's equation 5.3    Conditions for most economical rectangular and trapezoidal channel section 5.4    Discharge measuring devices : Triangular and rectangular notches 5.5    Velocity measurement devices : current meter, floats and Pitot tube 5.6    Specific energy diagram, Froude's Number and Hydraulic. Unit - VI Hydraulic Pumps 6.1    Concept of pump, Types of pump-centrifugal, reciprocating pumps, submersible pumps 6.2    Centrifugal pump : Components parts and working 6.3    Reciprocating pump : single acting and double acting, component parts and working. 6.4    Suction head, delivery head static head Manometric head 6.5    Compute power of centrifugal pump. 6.6    Selection and choice of pump.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891218555051,"sku":"987106142","price":130.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333200011_2.jpg?v=1655497254"},{"product_id":"9789333200080-2","title":"Theory of Structures for MSBTE  I  Scheme (IV - Civil - 22402)","description":"\u003cp\u003eUnit - I Direct and Bending Stresses in Vertical Members 1.1    Introduction to axial and eccentric loads, Eccentricity about one principal axis only, nature of stresses. Maximum and minimum stresses, resultant stresses and stress distribution diagram. 1.2    Condition for no tension or zero stress at extreme fiber, Limit of eccentricity, core of section for rectangular and circular cross sections, Middle third rule. 1.3    Chimneys of rectangular and circular cross section subjected to wind pressure, coefficient of wind pressure, Maximum and minimum stresses, resultant stresses and stress distribution diagram at base. 1.4    Analysis of dams subjected to horizontal water pressure, conditions of stability, Maximum and minimum stresses, resultant stresses and stress distribution diagram at base. Unit - II Slope and Deflection 2.1    Concept of slope and deflection, stiffness of beams, Relation among bending moment, slope, deflection and radius of curvature, (no derivation). 2.2    Double integration method to find slope and deflection of cantilever and simply supported beams subjected to concentrated load and uniformly distributed load on entire span. 2.3    Macaulay's method for slope and deflection, application to cantilever and simply supported beam subjected to concentrated and uniformly distributed load on entire span. Unit - III Fixed Beam 3.1    Concept of fixity, effect of fixity, advantages and disadvantages of fixed beam over simply supported beam. 3.2    Principle of superposition, Fixed end moments from first principle for beam subjected to central point load, UDL over entire span, Point load other than mid span. 3.3    Application of standard formulae in finding end moments, end reactions and drawing S.F. diagrams showing point of contra-shear and B.M. diagrams showing net BM and point of contra-flexure for a fixed beam. Unit - IV Continuous Beam 4.1    Definition, effect of continuity, nature of moments induced due to continuity, concept of deflected shape, practical example. 4.2    Clapeyron's theorem of three moment (no derivation) Application of Clapeyron's theorem maximum up to three spans and two unknown support moment only, Supports at same level, spans having same and different moment of inertia subjected to concentrated loads and uniformly distributed loads over entire span. 4.3    Drawing SF diagrams showing point of contrashear and BM diagrams showing net BM and point of contraflexure for continuous beams. Unit - V Moment Distribution Method 5.1    Introduction to moment distribution method, sign convention, Carry over factor, stiffness factor, distribution factor. 5.2    Application of moment distribution method to various types of continuous beams subjected to concentrated loads and uniformly distributed load over entire span having same or different moment of inertia, supports at same level, up to three spans and two unknown support moments only. 5.3    Drawing SF diagrams showing point of contrashear and BM diagrams showing net BM and point of contraflexure for continuous beams. 5.4    Introduction to portal frames : Symmetrical and unsymmetrical portal frames with the concept of Bays and stories. (Numericals on Symmetrical portal frames only). 5.5    Drawing SF diagrams and BM diagrams for Symmetrical portal frames only. Unit - VI Simple Trusses 6.1    Types of trusses (Simple, Fink, compound fink, French truss, pratt truss, Howe truss, North light truss, King post and Queen post truss) 6.2    Calculate support reactions for trusses subjected to point loads at nodal points only. 6.3    Calculate forces in members of truss using method of joints and Method of sections. 6.4    Graphical method of analysis of truss. (No Numerical on graphical method of analysis of truss).\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891218620587,"sku":"987106150","price":160.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333200080_2.jpg?v=1655497259"},{"product_id":"9789333200509-2","title":"Railway \u0026 Bridge Engineering for MSBTE  I  Scheme (IV - Civil - 22403)","description":"\u003cp\u003eUnit - I Basics of Railway Engineering 1a. Describe with sketches the given components of railway track in the diagram.1b. Suggest the remedy for the specified fault railway track with justification.1c. Suggest the type of rail track joint for the given situation with justification.1d. Suggest the type of fixtures and fastening for the given rail section with justification. 1.1 Role of transportation in the development of nation ; Modes of transportation system - land way, waterway, airway. Merits and demerits of roadway and railway ; Classification of Indian railways, zones of Indian railway.l.2 Permanent way : Ideal requirement, Components; Rail Gauge, types, factors affecting selection of a gauge.1.3 Rail material, Rail Joints - requirements, types.1.4 Creep of rail : Causes and prevention of creep.1.5 Sleepers - Functions and Requirement, types - concrete sleepers and their density.1.6 Ballast - function and types, suitability.1.7 Rail fixtures and fastenings - fish plate, spikes, bolts, keys, bearing plates, chairs - types of anchors and anti creepers. Unit - II Track geometrics, Construction and Maintenance Unit - III Overview of Bridge Engineering Unit - IV Construction and Maintenance of bridge Unit - V Construction and Maintenance of tunnels\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891218686123,"sku":"987106156","price":150.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333200509_2.jpg?v=1655497264"},{"product_id":"9789333200035-2","title":"Geotechnical Engineering for MSBTE  I  Scheme (IV - Civil - 22404)","description":"\u003cp\u003eUnit - I Overview of geology and geotechnical engineering 1.1    Introduction of geology, different branches of geology, importance of geology for civil engineering structure and comosition of earth. l.2    Introduction of petrology, definition of a rock, classification based on their genesis(mode of origin), formation, classification and engineering uses of igneous, sedimentary and metamorphic rocks. 1.3    IS definition of soil, Importance of soil in Civil Engineering as construction material in Civil Engineering as construction material in Civil Engineering Structures, as foundation bed for structures. 1.4    Field application of geotechnical engineering for foundation design, pavement design, design of earth retaining structures, design of earthen dam. Unit - II Physical and Index Properties of Soil 2.1    Soil as a three phase system, water content, determination of water content by oven drying method as per ID code, void ratio, porosity and degree of saturation, density index, unit weight of soil mass - bulk unit weight, dry unit weight, unit weight of solids, saturated unit weight, submerged unit weight, determination of bulk unit weight and dry unit weight by core cutter method and sand replacement method as per IS code, specific gravity, determination of specific gravity by pycnometer. 2.2    Consistency of soil, stages of consistency, Atterberg's limits of consistencty viz. Liquid limit, plastic limit and shrinkage limit, plasticity index, determination of liquid limit, plastic limit and shrinkage limit as IS code. 2.3    Particle size distribution, mechanical sieve analysis as per IS code particle size distribution curve, effective diameter of soil, Uniformity coefficient and coefficient of curvature, well graded and uniformly graded soils, particle size. Classification of soils, I.S. classification of soil. Unit - III Permeability and Shear Strength of Soil 3.1    Definition of permeability, Darcy's law of permeability, coefficient of permeability, factors affecting permeability, determination of coefficient of permeability by constant head and falling head permeability tests, simple problems to determine coefficient of permeability.     Seepage through earthen structures, seepage velocity, seepage pressure, pheratic line, flow line, application of flow net, (No numerical problems.) 3.2    Shear failure of soil, field situation of shear failure, concept of shear strength of soil, components of shearing resistance of soil - cohesion, internal friction. Mohr-coulomb failure theory, strength envelope, strength Equation for purely cohesive and cohesion less soils. Direct shear test and vane shear test-laboratory methods. Unit - IV Bearing Capacity of Soil 4.1    Bearing capacity and theory of earth pressure : Concept of bearing capacity, ultimate bearing capacity, safe bearing capacity and allowable bearing pressure, Introduction to Terzaghi's analysis and assumptions made, effect of water table on bearing capacity. 4.2    Field methods for determination of bearing capacity - Plate load test and standard penetration test. Test procedure as Per IS: 1888 \u0026amp; IS  :  2131  4.3    Definition of earth pressure, active earth pressure and passive earth pressure for no surcharge condition, coefficient of earth pressure, Rankine's theory and assumptions made for non-cohesive Soils. Unit - V Compaction and Stabilization of Soil 5.1    Concept of compaction, purpose of compaction, field situations where compaction is required, Standard proctor test , test procedure as per IS code, Compaction curve, optimum moisture content, maximum dry density, Zero air voids line, Modified proctor test, factors affecting compaction, field methods of compaction - rolling, ramming and vibration and Suitability of various compaction equipments-smooth wheel roller, sheep foot roller, pneumatic tyred roller, rammer and vibrator, difference between compaction and consolidation. 5.2    Concept of soil stabilization, necessity of soil stabilization, different methods of soil stabilization - mechanical soil stabilization, lime stabilization, cement stabilization, bitumen stabilization, fly-ash stabilization. California bearing ratio, C.B.R. test, meaning of C.B.R. value. 5.3    Necessity of site investigation and sub-soil exploration, types of exploration, criteria for deciding the location and number of test pits and bores. Field identification of soil - dry strength test, dilatancy test and toughness test.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891218718891,"sku":"987106166","price":90.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333200035_2.jpg?v=1655497268"},{"product_id":"9789333200615-2","title":"Building Planning \u0026 Drawing for MSBTE  I  Scheme (IV - Civil - 22405)","description":"\u003cp\u003eUnit - I Conventions and Symbols (Marks 6) 1.1    Conventions as per IS 962 - 1989, symbols for different materials such as earthwork, brickwork, stonework, concrete, woodwork and glass used in civil engineering. l.2    Construction, Graphical symbols for door and window, Abbreviations, symbols for sanitary and electrical installations. 1.3    Types of lines - visible lines, centre line, hidden line, section line, dimension line, extension line, pointers, arrow head or dots. Appropriate size of lettering and numerals for Titles, sub titles, notes and dimensions. 1.4    Types of scale - Monumental, Intimate, criteria for Proper Selection of scale for various types of drawing. 1.5    Sizes of various standard papers\/sheets. 1.6    Reading and interpreting readymade Architectural building drawing (To be procured from Architect, Planning Consultants, Planning Engineer). Unit - II Planning of Building (Marks 18) 2.1    Principles of planning of Residential and Public building-Aspect, Prospect, Orientation, Grouping, Privacy, Elegance, Flexibility, Roominess, Circulation, Furniture  requirements, Sanitation, Economy.  2.2    Space requirement and norms for minimum dimension of different 2.3    Units in the residential and public buildings as per IS 962 - 1989. 2.4    Rules and bye-laws of sanctioning authorities for construction work. 2.5    Plot area, built up area, super built up area, plinth area, carpet area, floor area and FAR (Floor Area Ratio)\/FSI. 2.6    Line plans for residential building of minimum three rooms including w\/c, bath and staircase as per principles of planning. 2.7    Line plans for public building - school building, primary health centre, restaurant, bank, post office, hostel, Function Hall and Library. Unit - III Drawing of Load Bearing Structure (Marks 16) 3.1    Drawing of Single storey Load Bearing residential building (2 BHK) with staircase. 3.2    Data drawing - developed plan, elevation, section, site plan, schedule of openings, construction notes with specifications, area statement, Planning and design of staircase - Rise and Tread for residential and public building. 3.3    Working drawing - developed plan, elevation, section passing through staircase of w.c. and bath. 3.4    Foundation plan of Load bearing structure. Unit - IV Drawing of Framed Structure (Marks 18) 4.1    Drawing of Two storey Framed Structure   (G + 1) residential building (2 BHK) with staircase. 4.2    Data drawing - developed plan, elevation section, site plan, schedule of openings, construction notes with specifications, area statement, Planning and design of staircase. Rise and Tread for residential and public building. 4.3    Working drawing of Framed Structure - developed plan, elevation, section passing through staircase or w.c. and bath. 4.4    Foundation plan of Framed Structure. 4.5    Details of RCC footing, column, Beam, Chajjas Lintel, Staircase and slab.  4.6    Drawing with CAD - Draw commands, modify commands, layer commands. Unit - V Perspective Drawing (Marks 12) 5.1    Definition, Types of perspective, terms used in perspective drawing, principles used in perspective drawing. 5.2    Two Point Perspective of small objects only such as steps, monuments pedestals.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891218784427,"sku":"987106172","price":140.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789333200615_2.jpg?v=1655497272"},{"product_id":"9789389750119-1","title":"Management for MSBTE  I  Scheme (VI - Common- 22509)","description":"\u003cp\u003eUnit - I Introduction to management concepts and managerial skills. 1.1    Definitions of management, role and importance of management. 1.2    Management characteristics and principles, levels of management and their functions; management, administration and organization relation between management and administration. 1.3    Functions of management : planning, organizing, leading \/ directing, staffing and controlling. 1.4    Types of planning and steps in planning. 1.5    Types of organization, Steps in organizing. 1.6    Functional areas of management. 1.7.    Managerial skills. Unit - II  Planning and organizing at supervisory level Planning at supervisory level 2.1    Planning by supervisor. 2.2    Planning activities, detailing and following of each step. 2.3    Prescribing standard forms for various activities. 2.4    Budgeting for materials and manpower.  Organizing at supervisory level 2.5    Organizing the physical resources. 2.6    Matching human need with job needs. 2.7    Allotment of tasks to individuals and establishing relationship among persons working in a group. Unit - III  Directing and Controlling at supervisory level  Directioning at supervisory level 3..1    Needs for directions and  instructions to subordinates ; Completeness and feasibilities of instructions. 3.2    Personal counselling advanced predictions of possible mistakes.  3.3    Elaborating decisions, laying disciplinary standards in overall working. Controlling at supervisory level  3.4    Managerial control ; Understanding team and link between various departments in respect of process ands quality standards; Steps in control process. 3.5    Controlling methods; Control over the performance in respect of quality, quantity of production, time and cost. Measuring performance, comparing with standards, correcting unfavorable deviations. Unit-IV  Safety Management 4.1    Need for safety management measures. 4.2    General safety norms for an industrial unit; Preventive measures. 4.3    Definition of accident, types of industrial accident; Causes of accidents. 4.4    Fire hazards; Fire drill. 4.5    Safety procedure. 4.6    Work permits. Unit-V  Legislative Acts 5.1    Necessity of acts, Important definition and Main provisions of acts. 5.2    industrial Acts :     a. Indian Factory Act     b. Industrial Dispute Act     c. Workman Compensation Act     d. Minimum Wages Act\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891218817195,"sku":"987106179","price":60.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789389750119.jpg?v=1655497277"},{"product_id":"9789389750003-1","title":"Programming with Python for MSBTE  I  Scheme (VI - CO\/CM\/IF\/CW - 22616)","description":"\u003cp\u003eUnit - I Introduction and Syntax of Python Program 1.1    Features of Python - Interactive, Object - oriented, Interpreted, Platform independent.  l.2    Python building blocks - Identifiers, Keywords, Indention, Variables, Comments. 1.3    Python environment setup - Installation and working of IDE 1.4    Running Simple Python scripts to display 'welcome' message. 1.5    Python Data Types : Numbers, String, Tuples, Lists, Dictionary. Declaration and use of data types. Unit - II Python Operators and Control Flow Statements 2.1    Basic Operators : Arithmetic, Comparison \/ Relational, Assignment, Logical, Bitwise, Membership, Identity operators, Python Operator Precedence. 2.2    Control Flow : 2.3    Conditional Statements (if, if . . . else, nested if) 2.4    Looping in python (while loop, for loop,     nested loops) 2.5    Loop manipulation using continue, pass, break, else. Unit - III Data Structures in Python 3.1    Lists :     a) Defining lists, accessing values in list, deleting values in list, updating lists.     b)  Basic List Operations     c)  Built - in List functions 3.2    Tuples :     a) Accessing values in Tuples, deleting values in Tuples, and updating Tuples.     b) Basic Tuple operations.     c) Built - in Tuple functions. 3.3    Sets :     a) Accessing values in Set, deleting values in Set and updating Sets.     b) Basic Set operations.     c) Built - in Set functions 3.4     Dictionaries :     a) Accessing values in Dictionary, deleting values in Dictionary and updating Dictionary.     b)  Basic Dictionary operations.     c)  Built- in Dictionaries functions. Unit - IV Python Functions, modules, and Packages 4.1    Use of Python built - in functions (e.g. type \/ data conversion functions, math functions etc.) 4.2    User defined functions : Function definition, Function calling, function arguments and parameter passing, Return statement, Scope of Variables  : Global variable and Local Variable. 4.3    Modules : Writing modules, importing modules, importing objects from modules, Python built - in modules (e.g. Numeric and mathematical module, Functional Programming Module) Namespace and Scoping. 4.4    Python Packages : Introduction,  Writing Python packages, Using standard (e.g. math, scipy, Numpy, matplotlib, pandas etc.) and user defined packages. Unit - V Object Oriented Programming in Python 5.1    Creating Classes and Objects. 5.2    Method Overloading and Overriding. 5.3    Data Hiding. 5.4    Data abstraction 5.5    Inheritance and composition classes 5.6    Customization via inheritance specializing inherited method. Unit VI File I\/O Handling and Exception Handling 6.1    I\/O Operations : Reading keyboard input, Printing to screen. 6.2    File Handling : Opening file in different modes, accessing file contents using standard  library functions, Reading  and writing files, closing  a file, Renaming and deleting  files, Directories in Python, File and directory  related standard functions. 6.3    Exception Handling : Introduction, Exception handling - 'try : except :' statement, 'raise' statement, User defined  exceptions\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891218849963,"sku":"987106190","price":150.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789389750003_1.jpg?v=1655497281"},{"product_id":"9789389750072-1","title":"Mobile Application Development for MSBTE  I  Scheme (VI - CO\/CM\/IF\/CW - 22617)","description":"\u003cp\u003eThis product will be an excellent pick for you. It is durable and long lasting.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891218882731,"sku":"987106202","price":200.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789389750072_1.jpg?v=1655497286"},{"product_id":"9789389750065-1","title":"Network \u0026 Information Security for MSBTE  I  Scheme (VI - CO\/CM\/IF\/CW - 22620)","description":"\u003cp\u003eUnit - I Introduction to Computer and Information Security 1.1    Foundations of Computer Security : Definition  and Need of computer security, Security Basics :  Confidentiality, Intergrity,  Availability, Accountability, Non -  Repudiation and Reliability. l.2    Risk and Threat Analysis : Assets,  Vulnerability, Threas, Risks,  Counter measures. 1.3    Threat to Security : Viruses, Phases of Viruses, Types of Virus, Dealing with Viruses, Worms, Trojan Horse, Intruders, Insiders.  1.4    Type of Attacks : Active and  Passive attacks, Denial of Service,  DDOS, Backdoors and Trapdoors,  Sniffing, Spoofing, Man in the  Middle, Replay, TCP\/IP, Hacking,  Encryption attacks. 1.5    Operating system security :  Operating system updates : Hotfix,  Patch, Service Pack. 1.6    Information, Need and Importance of Information, information  classification, criteria for  information classification, Security,  need of security, Basics principles  of information security. Unit - II User Authentication  and Access Control 2.1    Identification and Authentication  : User name and Password, Guessing password, Password  attacks-Piggybacking, Shoulder  surfing, Dumpster diving.  2.2    Biometrics : Finger prints, Hand  prints,  Retina, patterns, Voice  patterns,  Signature and Writing  patterns, Keystrokes. 2.3    Access controls : Definition,  Authentication Mechanism,  principle-Authentication,  Authorization, Audit, Policies :  DAC, MAC, RBAC. Unit - III Cryptography 3.1    Introduction :  Plain text, Cipher text, Cryptography, Cryptanalysis, Cryptology, Encryption, Decryption. 3.2    Substitution Techniques : Caesar's cipher, Modified Caesar's Cipher, Transposition Techniques : Simple Columnar Transposition. 3.3    Steganography : Procedure 3.4    Symmetric and Asymmetric  cryptography : Introduction to  Symmetric encryption, DES (Data  encryption Standard) algorithm,   Asymmetric key cryptography :  Digital Signature. Unit - IV Firewall and Intrusion  Detection System 4.1    Firewall : Need of Firwall, types of  firewall - Packet Filters, Stateful  Packet Filters, Application  Gateways, Circuit gateways. 4.2    Firewall Policies Configuration,  limitations, DMZ. 4.3    Intrusion Detection System :  Vulnerability Assement, Misuse  detection, Anomaly Detection,  Network-Based IDS, Host-Based  IDS, Honeypots. Unit - V Network Security, Cyber Laws and Compliance Standards 5.1    Kerberos : Working, AS, TGS, SS 5.2    IP Security - Overview, Protocols - AH, ESP, Modes - transport and Tunnel. 5.3    Email security - SMTP, PEM, PGP. 5.4    Public key infrastructure (PKI) : Introduction, Certificates, Certificate authority,  Registration Authority, X.509\/PKIX certificate format. 5.5    Cyber Crime : Introduction,  Hacking, Digital Forgery, Cyber,  Stalking\/Harassment, Cyber  Pornography, Indentity Theft and  Fraud, Cyber terrorism, Cyber  Defamation.  5.6    Cyber Laws : Introduction, need  Categories : Crime against  Individual  Government, Property. 5.7    Complaince standards :  Implementing and Information  Security Management System, ISO  27001, ISO 20000, BS 25999, PCI  DSS, ITIL, framework, COBIT  framework.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891218915499,"sku":"987106211","price":125.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789389750065_1.jpg?v=1655497291"},{"product_id":"9789389750010-1","title":"Web Based Application Development WITH php for MSBTE  I  Scheme (VI - CO\/CM\/IF\/CW - 22619)","description":"\u003cp\u003eUnit - I Expressions and control statements  in PHP 1.1    History and Advantages of PHP, Syntax of PHP. l.2    Variables, Data types, Expressions and operators, constants. 1.3    Decision making Control statements - if, if-else, nested if, switch, break and continue statement. 1.4    Loop control structures - while, do - while, for and foreach. Unit - II Arrays, Functions and Graphics 2.1    Creating and Manipulating Array, Types of Arrays - Indexed, Associative and Multi-dimensional arrays. 2.2 Extracting data from arrays, implode, explode, and array flip. 2.3    Traversing Arrays. 2.4    Function and its types - User  defined function, Variable function and Anonymous function. 2.5    Operations on String and String functions : str_word_count(),strlen(),str rev(), strpos(), str_replace(), ucwords(), strtoupper(), strtolower(), strcmp(). 2.6    Basic Graphics Concepts, Creating Images, Images with text, Scaling Images, Creation of PDF document. Unit - III Apply Object Oriented Concepts in PHP 3.1    Creating Classes and Objects 3.2    Constructor and Destructor 3.3    Inheritance, Overloading and Overriding, Cloning Object. 3.4  Introspection, Serialization Unit - IV Creating and validating forms 4.1    Creating a webpage using GUI     Components, Browser Role-GET and     POST methods, Server Role 4.2    Form controls : text box, text area, radio button, check box, list, buttons. 4.3  Working with multiple forms :     - A web page having many forms.     - A form having multiple submit buttons. 4.4    Web page validation. 4.5    Cookies - Use of cookies, Attributes of cookies, create cookies, modify cookies value, and delete cookies. 4.6  Session- Use of session, Start session, get session variables, destroy session. 4.7  Sending E-mail. Unit - V Database Operations 5.1    Introduction to MySQL - Create a database. 5.2    Connecting to a MySQL database : MySQL database server from PHP. 5.3    Database Operations : Insert data, Retrieving the Query result. 5.4    Update and delete operations on table data.\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891219144875,"sku":"987106221","price":110.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789389750010_1.jpg?v=1655497296"},{"product_id":"9789389750430-1","title":"Fluid Mechanics for BE VTU  Course 18 OBE \u0026 CBCS (IV- MECH. - 18ME43)","description":"\u003cp\u003eChapter - 1 Properties of Fluids Chapter - 2 Fluid Pressure and its Measurement Chapter - 3 Fluid Statics Chapter - 4 Buoyancy Chapter - 5 Fluid Kinematics Chapter - 6 Fluid Dynamics Chapter - 7 Laminar and Turbulent Flow Chapter - 8 Flow Through Pipe Chapter - 9 Boundary Layer Theory Chapter - 10 Flow Over Bodies Chapter - 11 Dimensional Analysis Chapter - 12 Compressible Flows Solved VTU Question Papers\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891219308715,"sku":"939973821","price":365.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789389750430_1.jpg?v=1655497310"},{"product_id":"9789389750300-2","title":"Electric Motors for BE VTU  Course 18 OBE \u0026 CBCS (IV- EEE - 18EE44)","description":"\u003cp\u003eModule-1 DC Motors : Classification, Back emf, Torque equation, and significance of back emf, Characteristics of shunt, series \u0026amp; compound motors. Speed control of shunt, series and compound motors. Application of motors. DC motor starters - 3 point and 4 point. Losses and Efficiency - Losses in DC motors, power flow diagram, efficiency, condition for maximum efficiency. (Chapters - 1,2) Module-2 Testing of DC Motors : Direct \u0026amp; indirect methods of testing of DC motors-Brake test, Swinburne’s test, Retardation test, Hopkinson’s test, Field’s test, merits and demerits of tests. Three Phase Induction Motors : Review of concept and generation of rotating magnetic field, Principle of operation, construction, classification and types; squirrel-cage, slip-ring  (No question shall be set from the review portion). Slip, Torque equation, torque-slip characteristic covering motoring, generating and braking regions of operation, Maximum torque, significance of slip. (Chapters - 2,3) Module-3 Performance of Three-Phase Induction Motor : Phasor diagram of induction motor on no-load and on load, equivalent circuit, losses, efficiency, No-load and blocked rotor tests. Performance of the motor from the circle diagram and equivalent circuit. Cogging and crawling. High torque rotors-double cage and deep rotor bars. Equivalent circuit and performance evaluation of double cage induction motor. Induction motor working as induction generator. (Chapter - 4) Module-4 Starting and Speed Control of Three-Phase Induction Motors : Need for starter. Direct on line, Star-Delta and autotransformer starting. Rotor resistance starting. Speed control by voltage, frequency, and rotor resistance methods.  Single-Phase Induction Motor : Double revolving field theory and principle of operation. Construction and operation of split-phase, capacitor start, capacitor run, and shaded pole motors. Comparison of single phase motors and applications. (Chapters - 5,6) Module-5 Synchronous Motor : Principle of operation, phasor diagrams, torque and torque angle, Blondel diagram, effect of change in load, effect of change in excitation, V and inverted V curves. Synchronous condenser, hunting and damping. Methods of starting synchronous motors.  Other Motors : Construction and operation of Universal motor, AC servomotor, Linear induction motor and stepper motors. (Chapter - 7)\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":41891219767467,"sku":"939973844","price":295.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/products\/9789389750300_2.jpg?v=1655497337"},{"product_id":"9789389750522-1","title":"Operational Amplifiers and Linear ICs for BE VTU  Course 18 OBE \u0026 CBCS (IV- EEE - 18EE46)","description":"\u003cp\u003eModule-1 Operational Amplifiers : Introduction, Block diagram representation of a typical Op-amp, schematic symbol, characteristics of an Op-amp, ideal op-amp, equivalent circuit, ideal voltage transfer curve, open loop configuration, differential amplifier, inverting \u0026amp; non – inverting amplifier, Op-amp with negative feedback(excluding derivations). General Linear Applications : A.C. amplifier, summing, scaling \u0026amp; averaging amplifier, inverting and non-inverting configuration, Instrumentation amplifier.(Chapter - 1) Module-2 Active Filters : First \u0026amp; Second order high pass \u0026amp; low pass Butterworth filters. Band pass filters, all pass filters. DC Voltage Regulators : Voltage regulator basics, voltage follower regulator, adjustable output regulator, LM317 \u0026amp; LM337 Integrated circuits regulators. (Chapters - 2, 3) Module-3 Signal Generators : Triangular \/ rectangular wave generator, phase shift oscillator, saw tooth oscillator. Comparators \u0026amp; Converters : Basic comparator, zero crossing detector, inverting \u0026amp; non-inverting Schmitt trigger circuit, voltage to current converter with grounded load, current to voltage converter and basics of voltage to frequency and frequency to voltage converters. (Chapters - 4, 5) Module-4 Signal processing circuits : Precision half wave \u0026amp; full wave rectifiers A\/D \u0026amp; D\/A Converters : Basics, R–2R D\/A Converter, Integrated circuit 8-bit D\/A, successive approximation ADC, linear ramp ADC (Chapters - 6, 7) Module-5 Phase Locked Loop (PLL) : Basic PLL, components, performance factors. Timer : Internal architecture of 555 timer, Mono stable multivibrators and applications. 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