Syllabus of Diploma (RGPV) I-Year Common for all Branch all Subjects

​SEMESTER I – GROUP ‘A’

MATHEMATICS – I

PAPER CODE : 7350 SUBJECT CODE : 101

Source: (rgpvdiploma.in)

UNIT – I: Trigonometry 

• Concept of angles, 
• measurement of angles in degrees, 
• grades and radians and their conversions, 
• TRatios of Allied angles (without proof), 
• Sum, difference formulae and their applications (without proof). 
• Product formulae (Transformation of product to sum, difference and vice versa). 
• T- Ratios of multiple angles, 
• sub-multiple angles (2A, 3A, A/2). 
• Graphs of sin x, cos x, tan x and ex. 

UNIT-II: Differential Calculus 

• Definition of function; 
• Concept of limits. 
• Four standard limits 

• Differentiation by definition of xn, sin x cos x, tan x, ex and logax. 
• Differentiation of sum, prod- uct and quotient of functions. 
• Differentiation of function of a function. 
• Differentiation of trig- onometric and inverse trigonometric functions, 
• Logarithmic differentiation, 
• Exponential functions. 

UNIT-III: Algebra 

Complex Numbers: 

• Definition, real and imaginary parts of a Complex number, 
• polar and Cartesian, representation of a complex number and its conversion from one form to other, 
• conjugate of a complex number, 
• modulus and amplitude of a complex number 
• Addition, Subtraction, Multiplication and Division of a complex number. 
• De-movier’s theorem, its application. 

Partial fractions:

•  Definition of polynomial fraction proper & improper fractions and definition of partial fractions. 
• To resolve proper fraction into partial fraction with denominator containing non-repeated linear factors, 
• repeated linear factors and irreducible non-repeated quadratic factors. 
• To resolve improper fraction into partial fraction. 

Permutations and Combinations 

• Value of nPr and nCr . 

Binomial theorem: 

• Binomial theorem (without proof ) for positive integral index (expansion and general form); 
• binomial theorem for any index (expansion without proof) first and second binomial approximation with applications to engineering problems

== END OF UNITS==

APPLIED PHYSICS – I

PAPER CODE : 7351 SUBJECT CODE : 102

Source: (rgpvdiploma.in)

Unit-1: Physical world, Units and Measurements 

• Physical quantities; fundamental and derived, 
• Units and systems of units (FPS, CGS and SI units), 
• Dimensions and dimensional formulae of physical quantities, 
• Principle of homogeneity of dimensions, 
• Dimensional equations and their applications (conversion from one system of units to other, 
• checking of dimensional equations and derivation of simple equations), Limitations of dimensional analysis. 
• Measurements: Need, measuring instruments, 
• least count, 
• types of measurement (direct, indirect), 
• Errors in measurements (systematic and random), 
• absolute error, relative error, 
• error propagation, error estimation and significant figures.

Unit-2: Force and Motion 

• Scalar and Vector quantities – examples, 
• representation of vector, types of vectors. 
• Addition and Subtraction of Vectors, 
• Triangle and Parallelogram law (Statement only), 
• Scalar and Vector Product, 
• Resolution of a Vector and its application to inclined plane and lawn roller. 
• Force, Momentum, Statement and derivation of conservation of linear momentum, 
• its applications such as recoil of gun, rockets, 
• Impulse and its applications. 
• Circular motion, definition of angular displacement, angular velocity, angular acceleration, 
• frequency, time period, 
• Relation between linear and angular velocity, linear acceleration and angular acceleration (related numerical), 
• Centripetal and Centrifugal forces with live examples, 
• Expression and applications such as banking of roads and bending of cyclist. 

Unit-3: Work, Power and Energy 

• Work: Concept and units, examples of zero work, 
• positive work and negative work 
• Friction: concept, types, laws of limiting friction, 
• coefficient of friction, reducing friction and its engineering applications, 
• Work done in moving an object on horizontal and inclined plane for rough and plane surfaces and related applications. 
• Energy and its units, kinetic energy, gravitational potential energy with examples and derivations, 
• mechanical energy, conservation of mechanical energy for freely falling bodies, 
• transformation of energy (examples). 
• Power and its units, power and work relationship, 
• calculation of power (numerical problems). 

Unit-4: Rotational Motion 

• Translational and rotational motions with examples, 
• Definition of torque and angular momentum and their examples, 
• Conservation of angular momentum (quantitative) and its applications. 
• Moment of inertia and its physical significance, 
• radius of gyration for rigid body, 
• Theorems of parallel and perpendicular axes (statements only), 
• Moment of inertia of rod, disc, ring and sphere (hollow and solid); (Formulae only).

Unit-5: Properties of Matter Elasticity 

• definition of stress and strain, moduli of elasticity, 
• Hooke’s law, significance of stress-strain curve. 
• Pressure: definition, units, atmospheric pressure, gauge pressure, absolute pressure, 
• Fortin’s Barometer and its applications. 
• Surface tension: concept, units, cohesive and adhesive forces, angle of contact, 
• Ascent Formula (No derivation), applications of surface tension, effect of temperature and impurity on surface tension. 
• Viscosity and coefficient of viscosity: Terminal velocity, Stoke’s law and effect of temperature on viscosity, application in hydraulic systems. 
• Hydrodynamics: Fluid motion, stream line and turbulent flow, 
• Reynold’s number Equation of continuity, 
• Bernoulli’s Theorem (only formula and numericals ) and its applications. 

Unit-6: Heat and Thermometry 

• Concept of heat and temperature, modes of heat transfer (conduction, convection and radiation with examples), 
• specific heats, scales of temperature and their relationship, 
• Types of Thermometer (Mercury thermometer, Bimetallic thermometer, Platinum resistance ther- mometer, Pyrometer) and their uses. 
• Expansion of solids, liquids and gases, 
• coefficient of linear, 
• surface and cubical expansions and relation amongst them, 
• Co-efficient of thermal conductivity, engineering applications.

== END OF UNITS==

APPLIED CHEMISTRY PAPER CODE : 7352 SUBJECT CODE : 103

Source: (rgpvdiploma.in)

Unit-1: Atomic Structure, Chemical Bonding and Solutions 

• Rutherford model of atom, Bohr’s theory (expression of energy and radius to be omitted), and hydrogen spectrum explanation based on Bohr’s model of atom, 
• Heisenberg uncertainty principle, 
• Quantum numbers – orbital concept. Shapes of s,p and d orbitals, 
• Pauli’s exclusion principle, Hund’s rule of maximum multiplicity Aufbau rule, electronic configuration. 
• Concept of chemical bonding – cause of chemical bonding, types of bonds: ionic bonding (NaCl example), covalent bond (H2 , F2 , HF hybridization in BeCl2 , BF3 , CH4 , NH3 , H2O), 
• coordination bond in NH4 + , and anomalous properties of NH3 , H2O due to hydrogen bonding, and metallic bonding. 
• Solution – idea of solute, solvent and solution, methods to express the concentration of solution- molarity (M = mole per liter), ppm, mass percentage, volume percentage and mole fraction.  

 Unit-2: Water 

• Graphical presentation of water distribution on Earth (pie or bar diagram). 
• Classification of soft and hard water based on soap test, salts causing water hardness, unit of hardness and simple numerical on water hardness. 
• Cause of poor lathering of soap in hard water, problems caused by the use of hard water in boiler (scale and sludge, foaming and priming, corrosion etc), and quantitative measurement of water hardness by ETDA method, total dissolved solids (TDS) alkalinity estimation. 
• i). Water softening techniques – soda lime process, zeolite process and ion exchange process. 
• ii). Municipal water treatment (in brief only) – sedimentation, coagulation, filtration, sterilization. 
• Water for human consumption for drinking and cooking purposes from any water sources and enlist Indian standard specification of drinking water (collect data and understand standards). 

 Unit-3: Engineering Materials 

• Natural occurrence of metals – minerals, ores of iron, aluminium and copper, gangue (matrix), flux, slag, metallurgy – brief account of general principles of metallurgy. 
• Extraction of – iron from haematite ore using blast furnace, aluminium from bauxite along with reactions. 
• Alloys – definition, purposes of alloying, ferrous alloys and non-ferrous with suitable examples, properties and applications. 
• General chemical composition, composition based applications (elementary idea only details omitted): Port land cement and hardening, Glasses Refractory and Composite materials. 
• Polymers – monomer, homo and co polymers, degree of polymerization, simple reactions involved in preparation and their application of thermoplastics and thermosetting plastics (using PVC, PS, PTFE, nylon – 6, nylon-6,6 and Bakelite), 
• rubber and vulcanization of rubber. 

Unit-4: Chemistry of Fuels and Lubricants 

• Definition of fuel and combustion of fuel, classification of fuels, 
• calorific values (HCV and LCV), calculation of HCV and LCV using Dulong’s formula.
• Proximate analysis of coal solid fuel petrol and diesel – fuel rating (octane and cetane numbers), Chemical composition, 
• calorific values and applications of LPG, CNG, water gas, coal gas, producer gas and biogas. 
• Lubrication – function and characteristic properties of good lubricant, classification with examples, 
• lubrication mechanism – hydrodynamic and boundary lubrication, 
• physical proper- ties (viscosity and viscosity index, oiliness, flash and fire point, could and pour point only) and 
• chemical properties (coke number, total acid number saponification value) of lubricants.

Unit-5: Electro Chemistry 

• Electronic concept of oxidation, reduction and redox reactions. 
• Definition of terms: electrolytes, non-electrolytes with suitable examples, 
• Faraday’s laws of electrolysis and simple numerical problems. 
• Industrial Application of Electrolysis – 
  • Electrometallurgy 
  • Electroplating 
  • Electrolytic refining. 
• Application of redox reactions in electrochemical cells – 
  • Primary cells – dry cell, 
  • Secondary cell – commercially used lead storage battery, fuel and Solar cells. 
• Introduction to Corrosion of metals – 
  • definition, types of corrosion (chemical and electrochemical), H2 liberation and O2 absorption mechanism of electrochemical corrosion, factors affecting rate of corrosion. 
• Internal corrosion preventive measures – 
  • Purification, alloying and heat treatment and External corrosion preventive measures: a) metal (anodic, cathodic) coatings, b) organic inhibitors.

== END OF UNITS==

COMMUNICATION SKILLS IN ENGLISH PAPER CODE : 7353 SUBJECT CODE : 104

Source: (rgpvdiploma.in)

Unit-I Communication: Theory and Practice (6 lectures) 

1.1 Basics of Communication: Introduction, Meaning and Definition, Process of Communication. 

1.2 Types of Communication: Verbal (Oral, Written) and Non-verbal–Signs, Symbols, Maps, Body Language ( Kinesics) Para Language . 

1.3 Channels: Formal ( Upward, Downward, Horizontal and Diagonal ) and Informal (Grapevine). 

1.4 Principles of Effective Written and Oral Communication ( including 7 C’s) 

1.5 Barriers to Effective Communication (Semantic, Physical, Psychological, Organizational) and ways to overcome them. 

Unit-II Soft Skills for Professional Excellence (5 lectures) 

2.1 Introduction: Soft Skills and Hard Skills. 

2.2 Importance of Soft Skills as Life skills : Self-awareness and Self-analysis, 

• Interpersonal effectiveness, 
• Adaptability, Resilience, 
• Emotional Intelligence, 
• Empathy, Assertiveness, Conflict management, 
• Problem Solving, Decision Making, Leadership, Motivation, Time Management and Team spirit.

Unit-III: Reading Comprehension (14 lectures) 

Comprehension, vocabulary enhancement and grammar exercises based on reading of the following texts: 

Section-1-Prose 3.1.1 ‘An Astrologer’s Day’ from Malgudi Days by R. K. Narayan 

3.1.2 ‘The Gift of the Magi’ by O’Henry 

3.1.3 ‘Uncle Podger Hangs a Picture’ by Jerome K. Jerome Section-2-Poetry 

3.2.1 ‘Night of the Scorpion’ by Nissim Ezekiel 

3.2.2 ‘Stopping by Woods on a Snowy Evening’ by Robert Frost 

3.2.3 ‘Where the Mind is Without Fear’ by Rabindranath Tagore 

Unit-IV: Professional Writing and Business Communication (10 lectures) 

4.1 Précis writing and Comprehension exercises based on Unseen Passages. 

4.2 E-mail etiquette, format of e-mail. 

4.2.1 Draft a short email message requesting for one day leave from your workplace due to sickness. 

4.2.2 Draft a short email message informing that you have resumed your duty after availing leave. 

4.2.3 Draft a short email message informing about inferior/defective quality of goods supplied.

4.3 Drafting Letters 

4.3.1 Parts of letters, mechanics, style and format. 

4.3.2 Application for Job or Covering letter with Resume 

4.3.3 Letters related to purchase: Enquiry, Order and Complaints (damaged or defective goods or for shortage in supply) 

Unit-V: Vocabulary and Grammar (10 lectures) 

5.1 Vocabulary of commonly used words, Synonyms, Antonyms and usage of same words as different parts of speech. 

5.2 One-word substitutions from the prescribed prose and poetry. 

5.3 Determiners, Auxiliary verbs, Subject-verb agreement, Tense, Prepositions, Active and Passive Voice

== END OF UNITS==

ENGINEERING GRAPHICS

PAPER CODE : — SUBJECT CODE : –

Source: (rgpvdiploma.in)

Unit – I: Basic elements of Drawing 

• Drawing Instruments and supporting materials: method to use them with applications. 
• Convention of lines and their applications. 
• Representative Fractions – reduced, enlarged and full size scales; 
• Engineering Scales such as plain and diagonal scale. 
• Dimensioning techniques as per SP-46:2003 – types and applications of chain, parallel and coordinate dimensioning. 
• Geometrical and Tangency constructions. (Redraw the figure) 

Unit – II: Orthographic projections 

• Introduction of projections-orthographic, perspective, isometric and oblique: concept and applications. (No question to be asked in examination). 
• Introduction to orthographic projection, First angle and Third angle method, their symbols. 
• Conversion of pictorial view into Orthographic Views – object containing plain surfaces, slanting surfaces, slots, ribs, cylindrical surfaces. (use First Angle Projection method only) 

Unit – III: Isometric Projections 

• Introduction to isometric projections. 
• Isometric scale and Natural scale. 
• Isometric view and isometric projection. 
• Illustrative problems related to objects containing lines, circles and arcs shape only. 
• Conversion of orthographic views into isometric view/projection.

Unit – IV: Free Hand Sketches of engineering elements 

• Free hand sketches of machine elements: Thread profiles, nuts, bolts, studs, set screws, washer, 
• Locking arrangements. (For branches other than mechanical Engineering, the teacher should select branch specific elements for free hand sketching) 
• Free hand sketches of orthographic view (on squared graph paper) and isometric view (on isometric grid paper) 

Unit – V: Computer aided drafting interface 

• Computer Aided Drafting: concept. 
• Hardware and various CAD software available. 
• System requirements and Understanding the interface. 
• Components of AutoCAD software window: Title bar, standard tool bar, menu bar, object properties tool bar, draw tool bar, modify tool bar, cursor cross hair. 
• Command window, status bar, drawing area, UCS icon. 
• File features: New file, Saving the file, Opening an existing drawing file, Creating templates, Quit. 
• Setting up new drawing: Units, Limits, Grid, Snap. Undoing and redoing action. 

Unit – VI: Computer aided drafting 

• Draw basic entities like Line, Circle, Arc, Polygon, Ellipse, Rectangle, Multiline, PolyLine. 
• Method of Specifying points: Absolute coordinates, Relative Cartesian and Polar coordinates. 
• Modify and edit commands like trim, extend, delete, copy, offset, array, block, layers. 
• Dimensioning: Linear, Horizontal Vertical, Aligned, Rotated, Baseline, Continuous, Diameter, Radius, Angular Dimensions. 
• Dim scale variable. 
• Editing dimensions. Text: Single line Text, Multiline text. Standard sizes of sheet. 
• Selecting Various plotting parameters such as Paper size, paper units, Drawing orientation, plot scale, plot offset, plot area, print preview. 

== END OF UNITS==

ENGINEERING WORKSHOP PRACTICE

PAPER CODE : —

SUBJECT CODE : –

 (Lab Only)

Source: (rgpvdiploma.in)

UNIT-I: Carpentry

i) Demonstration of different wood working tools / machines. 

ii) Demonstration of different wood working processes, like plaining, marking, chiseling, grooving, turning of wood etc. 

iii) One simple job involving any one joint like mortise and tenon dovetail, bridle, half lap etc. 

UNIT-II: Fitting 

i) Demonstration of different fitting tools and drilling machines and power tools 

ii) Demonstration of different operations like chipping, filing, drilling, tapping, sawing, cutting etc. 

iii) One simple fitting job involving practice of chipping, filing, drilling, tapping, cutting etc 

UNIT-III: Welding 

i) Demonstration of different welding tools / machines. 

ii) Demonstration on Arc Welding, Gas Welding, MIG, MAG welding, gas cutting and rebuilding of broken parts with welding. 

iii) One simple job involving butt and lap joint 

UNIT-IV: Sheet Metal Working 

i) Demonstration of different sheet metal tools / machines. 

ii) Demonstration of different sheet metal operations like sheet cutting, bending, edging, end curling, lancing, soldering, brazing, and riveting. 

iii) One simple job involving sheet metal operations and soldering and riveting. 

UNIT-V: Electrical House Wiring 

Practice on simple lamp circuits 

(i) one lamp controlled by one switch by surface conduit wiring, 

(ii) Lamp circuits- connection of lamp and socket by separate switches, 

(iii) Connection of Fluorescent lamp/tube light, 

(iv) simple lamp circuits-install bedroom lighting. And 

(v) Simple lamp circuits- install stair case wiring. 

UNIT-VI: Demonstration 

i) Demonstration of measurement of Current, Voltage, Power and Energy. 

ii) Demonstration of advance power tools, pneumatic tools, electrical wiring tools and accessories. 

iii) Tools for Cutting and drilling

== END OF UNITS==

SPORTS AND YOGA PAPER CODE : — SUBJECT CODE : —

Source: (rgpvdiploma.in)

• Introduction to Physical Education 
  • Meaning & definition of Physical Education 
  • Aims & Objectives of Physical Education 
  • Changing trends in Physical Education  
• Olympic Movement 
  • Ancient & Modern Olympics (Summer & Winter) 
  • Olympic Symbols, Ideals, Objectives & Values 
  • Awards and Honours in the field of Sports in India (Dronacharya Award, Arjuna Award, Dhayanchand Award, Rajiv Gandhi Khel Ratna Award etc.)  

• Physical Fitness, Wellness & Lifestyle 
  • Meaning & Importance of Physical Fitness & Wellness  
  • Components of Physical fitness 
  • Components of Health related fitness 
  • Components of wellness 
  • Preventing Health Threats through Lifestyle Change 
  • Concept of Positive Lifestyle

• Fundamentals of Anatomy & Physiology in Physical Education, Sports and Yoga 
  • Define Anatomy, Physiology & Its Importance 
  • Effect of exercise on the functioning of Various Body Systems. (Circulatory System, Respiratory System, Neuro-Muscular System etc.)

• Kinesiology, Biomechanics & Sports 
  • Meaning & Importance of Kinesiology & Biomechanics in Physical Edu. & Sports 
  • Newton’s Law of Motion & its application in sports. 
  • Friction and its effects in Sports.  
• Postures  
  • Meaning and Concept of Postures. 
  • Causes of Bad Posture. 
  • Advantages & disadvantages of weight training. 
  • Concept & advantages of Correct Posture. 
  • Common Postural Deformities – Knock Knee; Flat Foot; Round Shoulders; Lordosis, Kyphosis, Bow Legs and Scoliosis. 
  • Corrective Measures for Postural Deformities
• Yoga 
  • Meaning & Importance of Yoga 
  • Elements of Yoga 
  • Introduction – Asanas, Pranayama, Meditation & Yogic Kriyas  
  • Yoga for concentration & related Asanas (Sukhasana; Tadasana; Padmasana & Shashankasana) 
  • Relaxation Techniques for improving concentration – Yog-nidra  

• Yoga & Lifestyle 
  • Asanas as preventive measures. 
  • Hypertension: Tadasana, Vajrasana, Pavan Muktasana, Ardha Chakrasana, Bhujangasana, Sharasana. 
  • Obesity: Procedure, Benefits & contraindications for Vajrasana, Hastasana, Trikonasana, Ardh Matsyendrasana. 
  • Back Pain: Tadasana, Ardh Matsyendrasana, Vakrasana, Shalabhasana, Bhujangasana. 
  • Diabetes: Procedure, Benefits & contraindications for Bhujangasana, Paschimottasana, Pavan Muktasana, Ardh Matsyendrasana. 
  • Asthema: Procedure, Benefits & contraindications for Sukhasana, Chakrasana, Gomukhasana, Parvatasana, Bhujangasana, Paschimottasana, Matsyasana. 

• Training and Planning in Sports 
  • Meaning of Training 
  • Warming up and limbering down 
  • Skill, Technique & Style 
  • Meaning and Objectives of Planning. 
  • Tournament – Knock-Out, League/Round Robin & Combination.  

• Psychology & Sports 
  • Definition & Importance of Psychology in Physical Edu. & Sports
  • Define & Differentiate Between Growth & Development  
  • Adolescent Problems & Their Management 
  • Emotion: Concept, Type & Controlling of emotions 
  • Meaning, Concept & Types of Aggressions in Sports.  
  • Psychological benefits of exercise. 
  • Anxiety & Fear and its effects on Sports Performance.  
  • Motivation, its type & techniques.  Understanding Stress & Coping Strategies.  
  • Doping 
  • Meaning and Concept of Doping 
  • Prohibited Substances & Methods 
  • Side Effects of Prohibited Substances  

• Sports Medicine 
  • First Aid – Definition, Aims & Objectives. 
  • Sports injuries: Classification, Causes & Prevention.  
  • Management of Injuries: Soft Tissue Injuries and Bone & Joint Injuries  

• Sports / Games 
  • Following sub topics related to any one Game/Sport of choice of student out of: Athletics, Badminton, Basketball, Chess, Cricket, Kabaddi, Lawn Tennis, Swimming, Table Tennis, Volleyball, Yoga etc. 
  • History of the Game/Sport. 
  • Latest General Rules of the Game/Sport. 
  • Specifications of Play Fields and Related Sports Equipment.  
  • Important Tournaments and Venues. 
  • Sports Personalities. 
  • Proper Sports Gear and its Importance.

== END OF UNITS==

SEMESTER II – GROUP ‘A’

MATHEMATICS – II

PAPER CODE : 7357 SUBJECT CODE : 201

UNIT – I: Determinants and Matrices 

• Elementary properties of determinants up to 3rd order, consistency of equations, Crammer’s rule.
• Algebra of matrices, Inverse of a matrix,
• matrix inverse method to solve a system of linear equations in 3 variables.

UNIT – II: Integral Calculus

• Integration as inverse operation of differentiation.
• Simple integration by substitution, by parts and by partial fractions (for linear factors only).
• Use of formulas

for solving problems Where m and n are positive integers.

• Applications of integration for   
• i. Simple problem on evaluation of area bounded by a curve and axes.
• ii. Calculation of Volume of a solid formed by revolution of an area about axes. (Simple problems).

UNIT – III: Co-Ordinate Geometry

• Equation of straight line in various standard forms (without proof), inter section of two straight lines, angle between two lines.
• Parallel and perpendicular lines, perpendicular distance formula.
• General equation of a circle and its characteristics.
• To find the equation of a circle, given:

1. Centre and radius,
2. Three points lying on it and

iii. Coordinates of end points of a diameter;

• Definition of conics (Parabola, Ellipse, Hyperbola) their standard equations without proof.
• Problems on conics when their foci, directories or vertices are given.

UNIT – IV: Vector Algebra 

• Definition notation and rectangular resolution of a vector.
• Addition and subtraction of vectors.
• Scalar and vector products of 2 vectors.
• Simple problems related to work, moment and angular velocity.

UNIT-V: Differential Equations

• Solution of first order and first degree differential equation by variable separation method (simple problems).
• MATLAB – Simple Introduction.

APPLIED PHYSICS – II

PAPER CODE : 7358 SUBJECT CODE : 202 

UNIT – 1: Wave motion and its applications

• Wave motion, transverse and longitudinal waves with examples, definitions of wave velocity, fre- quency and wave length and their relationship,
• Sound and light waves and their properties, wave equation (y = r sint) amplitude, phase, phase difference, principle of superposition of waves and beat formation.
• Simple Harmonic Motion (SHM): definition, expression for displacement, velocity, acceleration, time period, frequency etc.
• Simple harmonic progressive wave and energy transfer, study of vibration of cantilever and determination of its time period, Free, forced and resonant vibrations with examples.
• Acoustics of buildings – reverberation, reverberation time, echo, noise, coefficient of absorption of sound, methods to control reverberation time and their applications,
• Ultrasonic waves – Introduction and properties, engineering and medical applications of ultrasonic.

UNIT – 2: Optics

• Basic optical laws; reflection and refraction, refractive index,
• Images and image formation by mirrors, lens and thin lenses, lens formula, power of lens, magnification and defects.
• Total internal reflection, Critical angle and conditions for total internal reflection, applications of total internal reflection in optical fiber.
• Optical Instruments;
• simple and compound microscope, astronomical telescope in normal adjustment, magnifying power, resolving power, uses of microscope and telescope, optical projection systems.

UNIT – 3: Electrostatics

• Coulomb’s law, unit of charge, Electric field,
• Electric lines of force and their properties, Electric flux, Electric potential and potential difference,
• Gauss law: Application of Gauss law to find electric field intensity of straight charged conductor, plane charged sheet and charged sphere.
• Capacitor and its working, Types of capacitors, Capacitance and its units. Capacitance of a parallel plate capacitor,
• Series and parallel combination of capacitors (related numerical), dielectric and its effect on capacitance, dielectric break down.

UNIT – 4: Current Electricity

• Electric Current and its units, Direct and alternating current,
• Resistance and its units, Specific resistance, Conductance, Specific conductance, Series and parallel combination of resistances.
• Factors affecting resistance of a wire, carbon resistances and colour coding.
• Ohm’s law and its verification, Kirchhoff’s laws, Wheatstone bridge and its applications (slide wire bridge only),
• Concept of terminal potential difference and Electro motive force (EMF) Heating effect of current,
• Electric power, Electric energy and its units (related numerical problems), Advantages of Electric Energy over other forms of energy.

UNIT – 5: Electromagnetism

• Types of magnetic materials; dia, para and ferromagnetic with their properties,
• Magnetic field and its units, magnetic intensity, magnetic lines of force, magnetic flux and units, magnetization.
• Concept of electromagnetic induction,
• Faraday’s Laws, Lorentz force (force on moving charge in magnetic field).
• Force on current carrying conductor, force on rectangular coil placed in magnetic field.
• Moving coil galvanometer; principle, construction and working, Conversion of a galvanometer into ammeter and voltmeter

UNIT – 6: Semiconductor Physics

• Energy bands in solids, Types of materials (insulator, semi-conductor, conductor), intrinsic and extrinsic semiconductors,
• p-n junction, junction diode and V-I characteristics, types of junction diodes.
• Diode as rectifier – half wave and full wave rectifier (centre taped).
• Transistor; description and three terminals, Types- pnp and npn, some electronic applications (list only).
• Photocells, Solar cells; working principle and engineering applications.

UNIT – 7: Modern Physics

• Lasers: Energy levels, ionization and excitation potentials;
• spontaneous and stimulated emission; population inversion, pumping methods, optical feedback,
• Types of lasers; Ruby, He-Ne and semiconductor, laser characteristics, engineering and medical applications of lasers.
• Fiber Optics: Introduction to optical fibers, light propagation, acceptance angle and numerical aperture, fiber types, applications in; telecommunication, medical and sensors.
• Nanoscience and Nanotechnology: Introduction, nanoparticles and nanomaterials, properties at nanoscale, nanotechnology, nanotechnology based devices and applications.

INTRODUCTION TO IT SYSTEMS

PAPER CODE : 7354 SUBJECT CODE : 203

UNIT-1:

• Basic Internet skills: Understanding browser,
• efficient use of search engines,
• awareness about Digital India portals (state and national portals) and college portals.
• General understanding of various computer hardware components – CPU, Memory, Display, Keyboard, Mouse, HDD and other Peripheral Devices.

UNIT-2:

• OS Installation (Linux and MS Windows),
• Unix Shell and Commands,
• vi editor.

UNIT-3:

• HTML4, CSS,
• making basic personal webpage.

UNIT-4:

• Office Tools: OpenOffice Writer,
• OpenOffice Spreadsheet (Calc),
• OpenOffice Impress.

UNIT-5:

• Information security best practices.
• Class lectures will only introduce the topic or demonstrate the tool, actual learning will take place in the Lab by practicing regularly.

FUNDAMENTALS OF ELECTRICAL AND ELECTRONICS ENGINEERING

PAPER CODE : 7355 SUBJECT CODE : 204

Unit-I: Overview of Electronic Components & Signals  

• Passive Active Components: Resistances, Capacitors, Inductors, Diodes, Transistors, FET, MOS and CMOS and their Applications.
• Signals: DC/AC, voltage/current, periodic/non-periodic signals, average, rms, peak values,
• different types of signal waveforms,
• Ideal/non-ideal voltage/current sources,
• independent/dependent voltage current sources.

Unit-II: Overview of Analog Circuits

• Operational Amplifiers-Ideal Op-Amp, Practical op amp, Open loop and closed loop configurations,
• Application of Op-Amp as amplifier, adder, differentiator and integrator.

Unit-III: Overview of Digital Electronics

• Introduction to Boolean Algebra, Electronic Implementation of Boolean Operations,
• Gates-Functional Block Approach, Storage elements-Flip Flops-A Functional block approach,
• Counters: Ripple, Up/down and decade,
• Introduction to digital IC Gates (of TTL Type).

Unit-IV: Electric and Magnetic Circuits

• EMF, Current, Potential Difference, Power and Energy;
• M.F, magnetic force, permeability, hysteresis loop, reluctance, leakage factor and BH curve;
• Electromagnetic induction, Faraday’s laws of electromagnetic induction, Lenz’s law;
• Dynamically induced emf;
• Statically induced emf;
• Equations of self and mutual inductance;
• Analogy between electric and magnetic circuits.

Unit-V: A.C. Circuits

• Cycle, Frequency, Periodic time, Amplitude, Angular velocity, RMS value, Average value,
• Form Factor Peak Factor, impedance, phase angle, and power factor;
• Mathematical and phasor representation of alternating emf and current;
• Voltage and Current relationship in Star and Delta connections;
• C in resistors, inductors and capacitors;
• C in R-L series, R-C series, R-L-C series and parallel circuits;
• Power in A. C. Circuits, power triangle.

Unit-VI: Transformer and Machines

• General construction and principle of different type of transformers;
• Emf equation and transformation ratio of transformers;
• Auto transformers;
• Construction and Working principle of motors;
• Basic equations and characteristic of motors.

ENGINEERING MECHANICS

PAPER CODE : 7356 SUBJECT CODE : 205

Unit – I: Basics of mechanics and force system

• Significance and relevance of Mechanics, Applied mechanics, Statics, Dynamics.
• Space, time, mass, particle, flexible body and rigid body.
• Scalar and vector quantity, Units of measurement (SI units) – Fundamental units and derived units.
• Force – unit, representation as a vector and by Bow’s notation, characteristics and effects of a force, Principle of transmissibility of force, Force system and its classification.
• Resolution of a force – Orthogonal components of a force, moment of a force, Varignon’s Theorem.
• Composition of forces – Resultant, analytical method for determination of resultant for concurrent, non-concurrent and parallel co-planar force systems – Law of triangle, parallelogram and polygon of forces.

Unit – II: Equilibrium

• Equilibrium and Equilibrant, Free body and Free body diagram, Analytical and graphical methods of analysing equilibrium
• Lami’s Theorem – statement and explanation, Application for various engineering problems.
• Types of beam, supports (simple, hinged, roller and fixed) and loads acting on beam (vertical and inclined point load, uniformly distributed load, couple),
• Beam reaction for cantilever, simply supported beam with or without overhang – subjected to combination of Point load and uniformly distributed load.
• Beam reaction graphically for simply supported beam subjected to vertical point loads only.

Unit – III: Friction

• Friction and its relevance in engineering, types and laws of friction, limiting equilibrium, limiting friction, co-efficient of friction, angle of friction, angle of repose, relation between co-efficient of friction and angle of friction.
• Equilibrium of bodies on level surface subjected to force parallel and inclined to plane.
• Equilibrium of bodies on inclined plane subjected to force parallel to the plane only.

Unit – IV: Centroid and centre of gravity

• Centroid of geometrical plane figures (square, rectangle, triangle, circle, semi-circle, quarter circle)
• Centroid of composite figures composed of not more than three geometrical figures
• Centre of Gravity of simple solids (Cube, cuboid, cone, cylinder, sphere, hemisphere) Centre of Gravity of composite solids composed of not more than two simple solids.

Unit – V: Simple lifting machine

• Simple lifting machine, load, effort, mechanical advantage, applications and advantages. Velocity ratio, efficiency of machines, law of machine.
• Ideal machine, friction in machine, maximum Mechanical advantage and efficiency, reversible and non-reversible machines, conditions for reversibility
• Velocity ratios of Simple axle and wheel, Differential axle and wheel, Worm and worm wheel, Single purchase and double purchase crab winch, Simple screw jack, Weston’s differential pulley block, geared pulley block.

ENVIRONMENTAL SCIENCE 

PRACTICE PAPER CODE : —

SUBJECT CODE : –

UNIT-I:  Ecosystem

• Structure of ecosystem, Biotic & Abiotic components
• Food chain and food web
• Aquatic (Lentic and Lotic) and terrestrial ecosystem
• Carbon, Nitrogen, Sulphur, Phosphorus cycle.
• Global warming -Causes, effects, process, Green House Effect, Ozone depletion

UNIT-II: Air and, Noise Pollution

• Definition of pollution and pollutant, Natural and manmade sources of air pollution (Refrigerants, I.C., Boiler)
• Air Pollutants: Types, Particulate Pollutants: Effects and control (Bag filter, Cyclone separator, Electrostatic Precipitator)
• Gaseous Pollution Control: Absorber, Catalytic Converter, Effects of air pollution due to Refrigerants, I.C., Boiler
• Noise pollution: sources of pollution, measurement of pollution level, Effects of Noise pollution, Noise pollution (Regulation and Control) Rules, 2000

UNIT-III: Water and Soil Pollution

• Sources of water pollution, Types of water pollutants, Characteristics of water pollutants Turbidity, pH, total suspended solids, total solids BOD and COD: Definition, calculation
• Waste Water Treatment: Primary methods: sedimentation, froth floatation, Secondary methods: Activated sludge treatment, Trickling filter, Bioreactor, Tertiary Method: Membrane separation technology, RO (reverse osmosis).
• Causes, Effects and Preventive measures of Soil Pollution: Causes-Excessive use of Fertilizers, Pesticides and Insecticides, Irrigation, E-Waste.

UNIT-IV: Renewable sources of Energy

• Solar Energy: Basics of Solar energy. Flat plate collector (Liquid & Air). Theory of flat plate collector. Importance of coating. Advanced collector. Solar pond. Solar water heater, solar dryer. Solar stills.
• Biomass: Overview of biomass as energy source. Thermal characteristics of biomass as fuel. Anaerobic digestion. Biogas production mechanism. Utilization and storage of biogas.
• Wind energy: Current status and future prospects of wind energy. Wind energy in India. Environmental benefits and problem of wind energy.
• New Energy Sources: Need of new sources. Different types new energy sources. Applications of (Hydrogen energy, Ocean energy resources, Tidal energy conversion.) Concept, origin and power plants of geothermal energy

UNIT-V: Solid Waste Management, ISO 14000 & Environmental Management

• Solid waste generation- Sources and characteristics of : Municipal solid waste, E- waste, biomedical waste.
• Metallic wastes and Non-Metallic wastes (lubricants, plastics, rubber) from industries.
• Collection and disposal: MSW (3R, principles, energy recovery, sanitary landfill), Hazardous waste
• Air quality act 2004, air pollution control act 1981 and water pollution and control act1996.
• Structure and role of Central and state pollution control board.
• Concept of Carbon Credit, Carbon Footprint.
• Environmental management in fabrication industry.

ISO14000: Implementation in industries, Benefits.

==End of First Year Syllabus==