Nims University, Jaipurb.Tech. (Biotechnology)

NIMS UNIVERSITY, JAIPURB.TECH. (BIOTECHNOLOGY)

NIMS UNIVERSITY, JAIPUR

SYLLABUS

B. TECH.

(BIOTECHNOLOGY)

Semester-I

Scheme of Examination

Subject / Hrs. per Week / Exam. hrs / Max. Marks
Theory Papers / L / T / P / IA / EXAM / TOTAL
English & Communication Skills / 2 / 0 / 0 / 3 / 25 / 50 / 75
Engineering Mathematics-I / 3 / 1 / 0 / 3 / 25 / 75 / 100
Engineering Chemistry / 3 / 1 / 0 / 3 / 25 / 75 / 100
Engineering Mechanics / 3 / 1 / 0 / 3 / 25 / 75 / 100
Fundamentals of Computers / 2 / 1 / 0 / 3 / 25 / 50 / 75
Electronics Engineering / 3 / 1 / 0 / 3 / 25 / 75 / 100
Basic Environmental Engineering / 2 / 1 / 0 / 3 / 25 / 75 / 100
Practicals
Engineering Chemistry Lab. / 0 / 0 / 2 / - / 60 / 40 / 100
Practical Geometry / 0 / 0 / 2 / - / 50 / 25 / 75
Computer Programming Lab. / 0 / 0 / 2 / - / 50 / 25 / 75
Electronics Engineering Lab. / 0 / 0 / 2 / - / 60 / 40 / 100
Grand Total / 18 / 6 / 8 / - / 395 / 605 / 1000

English & Communication Skills

UNIT I: FAMILIARIZING

1.1Familiarizing English through reading-editorials from leading newspapers, leading journals. Listening to pre-recorded tapes & reproduce vocally what have been heard, reproduce in writing form and answering questions.

1.2Tongue twisters

1.3Quizzes like jumble words & sentences

UNIT II:

Formal letter writing, report writing, comprehension passage and summary, Abbreviations used in daily life.

UNIT III: VOCUBLARY

3.1Synonyms, Antonyms, Homonyms, giving one word for many words.

UNIT IV: THEME PRESENTATION

4.1Describing oneself

4.2 Describing person or object

4.3Describing picture and photo

Engineering Mathematics-I

UNIT I: MATRICES

1.1Elementary row and column transformation

1.2Rank of matrix

1.3Inverse of a matrix by elementary transformation

1.4Solution of Simultaneous linear equations

1.5Eigen values and Eigen vectors

1.6Cayley-Hamilton Theorem (without proof)

1.7Diagonalization of a matrix.

UNIT II: DIFFERENTIAL CALCULUS-I

2.1Asymptotes (Cartesian co-ordinate only)

2.2Concavity

2.3Convexity

2.4Point of Inflexion (Cartesian coordinate only)

2.5Curve tracing (Cartesian Curves only)

UNIT III: DIFFERENTIAL CALCULUS-II

3.1Partial Differentiation

3.2Euler Theorem on Homogenous Functions

3.3Approximate calculations

3.4Maximum and Minima of Two and more Independent Variables

3.5Lagrange’s Method of Multipliers

UNIT IV: INTEGRAL CALCULUS

4.1Applications in finding the length of simple curves

4.2Surface and Volume of Solids of Revolutions

4.3Double Integral

4.4Area and Volume by Double Integration

4.5Change of Order of Integration

4.6Beta Function and Gamma function (Simple properties)

UNIT V: COORDINATE GEOMETRY OF THREE DIMENSIONS

5.1Equation of a Sphere

5.2Intersection of a Sphere and a plane

5.3Normal lines

5.4Right Circular Cone

5.5Right Circular Cylinder

Engineering Chemistry

UNIT I: WATER

Common Impurities, Hardness, Degree of Hardness, Determination of Hardness by Clark’s Test and Complexometric (EDTA) method, Municipal Water Supply, Requisites of drinking water, Purification of water, Sedimentation, Filtration, Sterilization, Break Point Chlorination, Water for stream making, Boiler troubles carryover corrosion, Sludge and Scale formation, Caustic embitterment, Methods of Water Treatment, Preliminary treatments, Preheating, Lime-Soda Process, Permutit (Zeolite) Process, De-ionizer or Demineralization, Feed water conditioning, Internal treatment, Blow down, Numerical problems based on water treatment (Lime-Soda process), Water quality standards, Water quality parameters DO, BOD, Solid Metals, Contents ofChloride, sulphate, phosphate, nitrate and micro-organisms, Analytical methods for measuring BOD, COD, DO, F, Oils, Metals (Cd, Cr, Hg, Pb) residual chloride and chlorine demand.

UNIT II: FUELS

Introduction and characteristics of fuels, Origin and Classification of fuels, Chemical Fuels, Solid Fuels-(a) Coal (b) Proximate and Ultimate analysis of coal (c) Significance of the constituents (d) Gross and Net calorific value (e) Determination of Calorific value by Bomb Calorimeter (f) Metallurgical Coke (g) Coke- beehive, Coke oven and by-product coke ovens, Liquid Fuels-(a) Advantages (b) Petroleum and refining of petroleum (c) Synthetic petrol (d) Refining and reformation of gasoline (e) Knocking and Anti Knocking Agents (f) Octane number (g) Cetane number, Cracking Gaseous Fuels-(a) Advantages (b) Manufacturing Processes (c) Composition and Calorific Value of Coal gas and Oil gas (d) Determination of Calorific Value by Junker’s calorimeter (e) Flue gas analysis by Orsat Apparatus.

UNIT III: PHASE RULE

Explanation and illustration of phase, Component and Degree of freedom, Phase rule and its thermodynamics derivation, One component system and its application to water system, Application of phase rule to sulphur system, Two component system, graphical representation, reduced phase rule equation, condensed state, Application of phase rule to lead silver system, Application of phase rule to potassium iodide and water system.

UNIT IV: POLYMERS

Introduction, Classification, Mechanism of polymerization, Plastics, Types of plastic and their uses, Preparation, properties and uses of Polyethylene, Bakelite, Terylene and Nylon, Rubber, Natural Rubber, Synthetic Rubber viz. Buna-S, Buna-N, Butyl and Neoprene Rubbers, Vulcanization Process.

UNIT V: LUBRICANTS

Classification of Lubricants, Types of lubrication, Properties and Uses, Viscosity & Viscosity Index, Flash Fire Point, Cloud and Pour Point, Emulsification.

UNIT VI: CORROSION

Definition of Corrosion, Its significance in daily life, Theories of Corrosion, Galvanic Cell and Concentration Cell, Pitting and Stress Corrosion, Protection against Corrosion, Protective Metallic Coating.

UNIT VII: NEW ENGINEERING MATERIALS

Superconductor, Organic Electronic Materials, Fullerenes and Optical fibers.

UNIT VIII: CEMENT

Manufacturing of Portland Cement, Vertical Shaft Kiln Technology, Chemistry of Setting and Hardening.

UNIT IX: REFRACTORIES

Definition, Properties and Classification, Properties of Silica and Fireclay refractories.

UNIT X: GLASS

Preparation, varieties and uses of Glass.

ENGINEERING CHEMISTRY LAB

LIST OF EXPERIMENTS

1. VOLUMETRIC ANALYSIS

-Determination of Hardness of water by EDTA method.

-Determination of available chlorine in water

-Determination of Ferrous Ammonium Sulphate

-Determination of Sodium Hydroxide and Sodium Carbonate in an alkali mixture

1. GRAVIMETRIC ANALYSIS

-Determination of Barium as Barium Sulphate

3.PHYSIOCHEMICAL ANALYSIS

-To determine the percentage composition of a given mixture by Viscosity Method

-To determine the percentage composition of a given mixture by Surface Tension Method

4.ANALYSIS OF INORGANIC MIXTURE

- Test for Acidic Radicals

- Test for combination of Acidic Radicals

- Test for Basic Radicals

5.ANALYSIS OF ORGANIC COMPOUND

- Detection of Elements-Nitrogen, Halogen and Sulphur

- Detection of Functional Group

- Determination of Boiling Point of the given Organic Compound

- Determination of Melting Point of the given Organic Compound

- To purify the given Compound by Sublimation.

Engineering Mechanics

UNIT I: INTRODUCTION

1.1Basic Concepts

1.2Thermodynamics system, properties, work and heat

1.3First Law of Thermodynamics

1.4Non-flow and flow energy equations

1.5Steady flow and unsteady flow

1.6Second Law of Thermodynamics

1.7Carnot Cycle, Clausis Inequality

UNIT II: INTERNAL COMBUSTION ENGINE

2.1Otto and Diesel cycle

2.2Thermal Efficiency calculations

2.3Classification of Internal Combustion Engine

2.4Two and Four Stroke Engines

2.5Construction and working of Petrol and Diesel Engines.

UNIT III: GAS TURBINE PLANTS

3.1Ideal Brayton cycle

3.2Thermal Efficiency

UNIT IV: REFRIGIRATION & AIR-CONDITIONING

4.1Refrigeration and Air-Conditioning

4.2Vapor Compression Cycle

4.3Working principle and schematicdiagram of refrigerators, air coolers, air conditioners and ice plant

4.4Psychometric Chart

UNIT V: FORCE SYSTEM & ANALYSIS

5.1Basic concept

5.1.1Law of motion

5.1.2Transfer of force to parallel position

5.1.3Resultant of planer force system

5.1.4Free Body diagram

5.1.5Equilibrium and its equation.

5.2Friction:

5.2.1Introduction

5.2.2Laws of Columb Friction

5.2.3Equilibrium of bodies involving dry friction-Belt Friction.

UNIT VI: STRESS & STRAIN ANALYSIS

6.1Introduction to Simple stress and Strain

6.2Normal shear stresses

6.3Stress-Strain diagram for ductile and elastic materials

6.4Elastic Constants

6.5One dimensional loading of members of varying cross section

6.6Strain Energy

MECHANICAL WORKSHOP

A.FOUNDARY SHOP

1.Moulding Sands, Constituents and Characteristics

2.Pattern, Definition, Materials types, Core prints

3.Role of gate, runner, riser, core and chaplets

4.Causes and remedies of some common casting defects like blow holes, cavities, inclusions etc.

B.WELDING, BRAZING AND SOLDERING SHOP

1.Definition of welding, brazing and soldering processes and their applications

2.Oxyacetylene gas welding process, equipment and techniques, types of flames and their applications

3.Manual metal arc welding technique and equipments, AC and DC welding

4.Electrodes: Constituents and functions of electrode coating, welding positions

5.Types of welded joints, common welding defect such as cracks, undercutting, slag inclusion and boring

PRACTICAL GEOMETRY

1.Lines, Lettering and Dimensioning

2.Scales: Representative factor, plain scales, diagonal scales, scales of chords

3.Conic Sections: Construction of ellipse, parabola and hyperbola by different methods

4.Normal and Tangents

5.Special Curves: Cycloid, Epicycloids, Hypo-cycloid, Involutes, Archimedean and logarithmic spiral

6.Projection of points and lines, True inclinations and true length of straight lines, Traces of straight lines, Auxiliary Plains

7.Projection of planes and solids: Projection of planes, Projection of polyhedral, Pyramids, Cylinder and Cone

8.Sections of solids: Section of right solids by normal and inclined planes.

9.Development Surfaces: Parallel line and radial line method for right solids

Fundamentals of Computer

UNIT I: INTRODUCTION

1.1Types of Computer and generation

1.2 Basic architecture of Computer and its building blocks

1.3Input-output devices

1.4Memories

UNIT II: NUMBER SYSTEM

2.1 Binary, Octal, Decimal and Hexadecimal representation of numbers

2.2 Representation of Character

2.3ASCII and EDCDIC codes

2.4Binary arithmetic: addition, subtraction, compliments

UNIT III: CLASSIFICATION of COMPUTER LANGUAGE

3.1Types of Computer languages-Machine, Assembly and High level Language

3.2 Brief idea of operating systems, Assembler, Compiler, and Interpreter

3.3 Need of Programming languages

3.4 Programming in “C” language

3.5 Flowchart and Algorithm development

3.6 Defining problems

UNIT IV: DATA TYPE

4.1Data types, constant variables, operators and expressions

4.2 Input-output statements

4.3 Conditional and Control statements

4.4 Arrays

4.5 Function

UNIT V: ADVANCED CONCEPT

5.1Structure and Unions

5.2 Pointers

5.3 File handling

COMPUTER PROGRAMMING LAB

LIST OF EXPERIMENTS

1.Simple input output program integer, real character and string

2.Conditional statement program (if, if-else-if, switch case)

3.Looping Program (for, while, do-while)

4.Program based on array (one, two and three dimensions)

5.Program using Structure and Union

6.Program using functions (with and without recursion)

7.Simple program using pointers

8.File handling

Electronics Engineering

UNIT I: SEMICONDUCTOR MATERIALS AND PROPERTIES

Group-IV materials, Covalent Bond, Electron-hole concepts, Basic concept of Energy Bands in materials, Concept of Forbidden Gap, Intrinsic and Extrinsic Semiconductor, Donors and Acceptors impurities

UNIT II: JUNCTION DIODE

P-N Junction, Depletion layer, V-I characteristics, Diode Resistance and Capacitance, Diode Rating (average current, peak inverse voltage)

UNIT III: DIODE APPLICATION

Rectifiers (Half Wave and Full Wave), Calculation of Transformer utilization factor and diode ratings, Calculation of Ripple Factor and Load Regulation, Filter (C-filter), Clipping Circuit, Clamping Circuit, Voltage Multipliers

UNIT IV: BREAK DOWN DIODE

Break down mechanisms (Zener and Avalanche), Breakdown characteristics, Zener Diode, Zener Resistance, Applications of Zener Diode and its use as Shunt Regulator

UNIT V: BIPOLAR JUNCTION TRANSISTOR

Basic construction, Transistor action, CB, CC and CE configuration, Input/Outputcharacteristics, Biasing of Transistor- fixed bias, emitter bias, potential divider bias, Comparison of Biasing Circuits

UNIT VI: THYRISTORS

The Four Layer Diode, Bi-directional Thyristors, Uni-junction Transistor and its application in Thyristor Circuit

UNIT VII: COMMUNICATION SYSTEM

Introduction to Modulation (AM, FM, & PM), Demodulation, Multiplexing, Super Hetrodyne Radio Receiver, Television, Elementary concepts of optical, satellite & mobile communication

UNIT VIII: ELECTRONICS ENGINEERING LAB

1.Verifications of network theorems

2.Study of diode characteristics

3.Study the characteristics of junction Transistor

ELECTRONICS ENGINEERING LAB

LIST OF EXPERIMENTS

1.Verifications of network theorems

2.Study of diode characteristics

3.Study the characteristics of junction Transistor

Basic Environmental Engineering

UNIT I: ENVIRONMENT AND ECOLOGY

1. Introduction

• Environment and Ecology
• Objectives of Ecological study
• Aspects of Ecology
• Ecosystem
• Community Ecology

UNIT II: SCIENCE OF ENVIRONMENT

2.1Hydrosphere

2.1.1Physical, chemical and Biological properties of water and stress upon it owing to the impacts of-sources of Water Pollution.

2.1.2Effect of water Pollution

2.1.3Quality of Potable Water

2.2Atmosphere

2.2.1Origin of atmosphere

2.2.2Structure of Atmosphere

2.2.3Element properties of the Atmosphere

2.2.4Physical, Chemical and Biological properties of Air.

UNIT III: ENVIRONMENT IMPACT ASSESSMENTS

3.1Introduction

3.2Environment Impact Assessment (EIA)

3.3Methodology of EIA

3.4Identification of Impact

3.5Role of EIA in Sustainable Development

3.6Limitation of EIA.

UNIT IV: ENVIRONMENT MANAGEMENT

4.1Environmental Management Plan (EMP)

4.2Mitigation

4.3Environmental Monitoring

4.4Environmental Management

4.5Air Quality Management

4.6Water Management

4.7Soil Quality Management

4.8Noise Management

4.9Ecosystem Management

4.10Forest

4.11Wild Life and Endangered Species

4.12Integrated Pest

4.13Integrated Energy Management

UNIT V: ENVIORNMENT LEGISLATION

5.1Environment protection Laws in India:- The Water Act 1974; The Air Act 1981; Wild Life Protection Act 1972; The Indian Forest Act 1927; The Environment Act 1986 and The Motor Vehicle Act 1988.

UNIT VI: CURRENT ENVIRONMENTAL ISSUES

6.1Introduction

6.2Global Warming and Green House Effect

6.3Acid Rain

6.4Depletion of Ozone layer

6.5Eutrophication

6.6Genetic erosion or Loss of Bio Diversity

6.7Increasing Sea level

6.8Artificial rain

6.9Environmental consideration of Rural Development, Sustainable Development.

Semester-II

Scheme of Examination

Subject / Hrs. per Week / Exam. hrs / Max. Marks
Theory Papers / L / T / P / IA / EXAM / TOTAL
English & Communication Skills / 2 / 1 / - / 3 / 10 / 40 / 50
Engineering Mathematics-II / 3 / 1 / - / 3 / 25 / 75 / 100
Physics / 3 / 1 / - / 3 / 25 / 75 / 100
Production Engineering / 2 / 1 / - / 3 / 25 / 50 / 75
Information Technology / 2 / 1 / - / 3 / 10 / 40 / 50
Electrical Engineering / 3 / 1 / - / 3 / 25 / 75 / 100
Environmental Pollution Control / 3 / 1 / - / 3 / 25 / 75 / 100
Practicals
Physics Lab. / - / - / 2 / - / 40 / 60 / 100
Mechanical Workshop / - / - / 2 / - / 25 / 50 / 75
Electrical Engineering Lab. / - / - / 2 / - / 40 / 60 / 100
I.T / Hardware Lab. / - / - / 2 / - / 25 / 50 / 75
Machine Drawing Lab. / - / - / 2 / - / 25 / 50 / 75
Grand Total / 18 / 7 / 10 / 300 / 700 / 1000

English & Communication Skills

UNIT I:GRAMMAR

Tenses, Determiners, Conversions, Preposition, Nouns and Articles.

UNIT II

Note of Invitation (Formal, Informal).

UNIT III:SHORT PLAYS

The Dear Departed by Stanley Houghton

Refund by Fritz Karinthy

UNIT IV:POEMS

Mending wall by Robert Frost

This is going to hurt just a little bit by Odgen Nash

UNIT IV:SHORT STORIES

The Gift of Magi by O’Henry

The Nightingale and the Rose by Oscar Wilde

The Fortune Teller by Karl Capek

Engineering Mathematics-II

UNIT I: DIFFERENTIAL EQUATIONS

1.1Differential Equations of first Order and First Degree

1.2Variable Separable form

1.3Homogenous forms

1.4Reducible to Homogenous form

1.5Linear form

1.6Exact form

1.7Reducible to Exact form

1.8Linear Differential Equations of Higher Order with constant Coefficients

UNIT II: LAPLACE TRANSFORM

2.1Laplace Transform

2.2Existence Theorem

2.3Laplace transform of Derivatives and Integrals`

2.4Inverse Laplace Transform

2.5UNIT Step Function

2.6Dirac Delta Function

2.7Laplace Transform of Periodic Functions`

2.8Convolution Theorem

2.9Application to solve simple linear and simultaneous differential equations

UNIT III: DYNAMICS

3.1Radial and Transverse Velocities and Accelerations,

3.2Tangential and Normal Accelerations,

3.3Rectilinear motions in Resisting Medium

UNIT IV: SERIES SOLUTIONS AND SPECIAL FUNCTION

4.1Series Solution of ODE 2nd order with variable coefficient (Complementary Functions only)

4.2Lagrange’s form and Standard forms

UNIT V: VECTOR CALCULUS

5.1Point Function,

5.2Scalar and Vector field,

5.3Gradient,

5.4Divergence,

5.5 Curl of a vector and their physical interpretations,

5.6Line Surface and Volume Integrals, Greens, Stocks and Gauss divergence theorem

Physics

UNIT I: RELATIVISTIC MECHANICS

1.1Inertial and Non Inertial frames

1.2Michelson Morley Experiment

1.3Postulates of Special Theory of Relativity

1.4Galilean and Lorentz Transformation

1.5Length Contraction and Time Dilation

1.6Addition of Velocities

1.7Mass Energy Equivalence

1.8Variation of Mass with Velocity

UNIT II: INTERFERENCE

2.1Spatial and Temporal Coherence

2.2Condition of Interference

2.3Fresnel’s Biprism

2.4Newton’s Rings

2.4.1Theory and Experiment for determining Wavelength of Light

2.4.2Condition for observing Bright and Dark Fringes

UNIT III: DIFFRACTION

3.1Single Slit Diffraction

3.1.1Position of Maxima and Minima

3.1.2Width of Central Maximum

3.1.3Intensity variation

3.2Diffraction Grating

3.2.1Construction and theory and determination of Wavelength of Light using Plane Transmission Grating

3.2.2Rayleigh’s Criterion of Resolution

3.2.3Resolving Power of Telescopeand Microscope

UNIT IV: POLARIZATION

4.1Production and Analysis of Plane, Circularly and Elliptically Polarized Light

4.2Optical Activity

4.3Specific Rotation

4.4Polarimeter

UNIT V: LASER

5.1Principle of Laser Action

5.2Einstein’s Coefficients

5.3Construction of He-Ne and Ruby Laser

UNIT VI: HOLOGRAPHY

6.1Basic theory

6.2Applications of Holography

UNIT VII: FUNDAMENTALS OF SEMI-CONDUCTORS & ITS DEVICES

7.1Intrinsic and Extrinsic Semiconductors

7.2Charge Density in N and P type materials

7.3Concept of Fermi level and forbidden energy band gap

7.4Hall Effect-Basic principle and theory and applications

7.5PN- junction diode-Theory and its working principle

7.6Light transmission through optical fiber

7.6.1Construction and working

7.6.2Construction of optical fiber cables

7.6.3Light Emitting Diodes (LEDs)

7.6.4Solar Cells

7.7Zener- Diode-Basic Principle, characteristics and application as Voltage Regulator.

UNIT VIII: MODERN PHYSICS

8.1Quantum Mechanics

8.1.1Wave Particle Duality

8.1.2De-Broglie’s concept of Matter Waves

8.1.3Heisenberg’s Uncertainty Principle

8.1.4Schrodinger Wave Equation and its applications-(i) Particle in a box and (ii) One Dimensional Harmonic Oscillator.

8.2Nuclear radiation detectors

8.2.1Construction, working and properties of -

(a) Ionization Chamber

(b) Proportional Counter

(c) G.M. Counter

(d) Scintillation Counter.

8.3X-Rays

8.3.1Diffraction of X-Rays

8.3.2Bragg’s Law

8.3.3Practical applications of X-Rays

8.3.4Crystal structure determination of any material

8.4Magnetism

8.4.1Basic concept of Para-magnetism, Dia-magnetism and Ferro-magnetism

8.4.2Phenomenon of Hysteresis and its applications.

LIST OF EXPERIMENTS

1. To determine the wave length of monochromatic light by Newton’s Rings.
2. To determine the wave length of monochromatic light by Fresnel’s Briprism.
3. To determine the focal length of combination of two lenses separated by a distance with the help of nodal slide and to verify the formula

1. To determine the specific rotation of cane sugar solution using half shade polarimeter.
2. To determine the wavelength of spectral lines using plane transmission grating.
3. To determine the specific resistance of the material of a given wire using Carey Foster’s Bridge.
4. To determine the variation of magnetic field along the axis of current carrying coil and then to estimate the radius of the coil.
5. To verify Stefan’s Law by electrical method.
6. To calibrate the given Voltmeter.
7. To calibrate the given Ammeter.
8. To study the Hall Effect and determine Hall coefficient, carrier density and mobility of a given semiconductor material using Hall effect setup.
9. To determine the energy band gap of a given semiconductor (Germanium) using four probe method.
10. To determine E.C.E. of copper using Helmholtz galvanometer.
11. To determine the viscosity of water by Poiseuille’s method.

Production Engineering

UNIT I: INTRODUCTION & CLASSIFICATION OF MANUFACTURING PROCESSES

Classification, Principle of working, specification and application of various machine tools, lathe machine, drilling machine, shaper and milling machine, Basic description and application of hot and cold working processes-forging, bending shearing, drawing and extrusion

UNIT II: FOUNDARY & WELDING TECHNIQUES

Foundary Techniques-Types of Pattern and allowance, Mouldling Materials and Properties of Mouldling Sand, Foundry Tools and equipments, Processes of Green Sand Maudling, Gas welding-Principle and working of Oxyacetylene Welding, Gas welding flames, Arc welding-Principle and working of Arc Welding, Various types of Arc Welding techniques-TIG, MIG, Submerged Arc and Plasma Arc, Soldering and Brazing

UNIT III: POWER TRANSMISSION

Transmission of power through Belt-Velocity ratio, length of belt, tension ratio, creep and slag of belt, power transmitted (numerical), Various Types of Drives-Rope Drive, Chain Drive and its classification, Gear drive-Type of Gears, Gear Train, Gear Drive Speed Ratio(numerical)

UNIT IV: MECHANICS

Location of Centroid and Centre of Gravity, Area Moment of Inertia, Mass Moment of Inertia, Law of Machines, Variation of Mechanical Advantages, Efficiency and Reversibility of Machine

UNIT V: WORK & ENERGY

Work, Energy-Potential, Kinetic and Spring, Work-Energy relation, Law of Conservation of Energy

UNIT VI: STEAM POWER PLANT

Classification of steam generators-Fire Tube and Water Tube, Construction and working of Simple Vertical, Babcock & Wilcox and Locomotive boiler, Layout and working of Steam Power Plant, Steam and Air Circuit Diagram, Rankine Cycle, Steam Table (without numerical)