Rajasthan technical university syllabus - 2018-2019 StudyChaCha

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Old January 29th, 2012, 11:39 PM
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Default Rajasthan technical university syllabus

I have applied for the B.Tech program at Rajasthan technical university so please provide me semester wise syllabus of this program or provide me such any website from where I can download the whole syllabus.
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Old February 21st, 2012, 06:40 PM
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Default Re: Rajasthan technical university syllabus

You were looking for the syllabus of Rajasthan Technical University B.Tech. I am attaching the syllabus of B.Tech in PDF format. Kindly log in to studychacha.com to download this file.
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File Type: pdf RTU B.Tech Syllabus First Semester.pdf (86.2 KB, 91 views)
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Old March 11th, 2013, 12:36 PM
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Default Re: Rajasthan technical university syllabus

: You want M.Tech Digital Communication syllabus of Rajasthan Technical University so here I am providing you the same:

Representation of deterministic signals: Orthogonal representation of signals. Dimensionality of signal spaces. Construction of orthogonal basis functions.
Random Processes: Definition and classification, stochastic integrals, Fourier transforms of random processes, stationary and non-stationary processes, correlation functions. Ergodicity, power spectral density, transformations of random processes by linear systems.
Representation of random processes (via sampling, K-L expansion and narrow band representations), special random processes :white Gaussian noise, Wiener-Levy process, Poisson process, shot-noise process, Markov process.
Optimum Filtering: Matched filters for deterministic signals in white and colored Gaussian noise. Wiener filters for random signals in white and colored Gaussian noise.

Characterization of communication signals, signal space representation, equalisation, matched filtering, binary PSK, QPSK, FSK, QAM & M-Ary modulation techniques and their representation. Coherent & non coherent detection, carrier & symbol synchronization, bits vs symbol error probability, bandwidth efficiency, Spread spectrum modulation: Pseudo noise sequences, DS & FH spread spectrum.

Rest of syllabus is available in attached pdf file. You can free download it.

Rajasthan Technical University
State Highway 33, Off Rawatbhata Road, Akelgarh, Kota, Rajasthan, 324010
0744 247 3952


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File Type: pdf RTU M.Tech Syllabus.pdf (25.8 KB, 43 views)
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Old March 9th, 2014, 02:30 PM
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Default Re: Rajasthan technical university syllabus

Give me syllabus for B tech course offer by Rajasthan Technical University, Kota ??
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Old March 9th, 2014, 02:39 PM
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Default Re: Rajasthan technical university syllabus

here I am giving you syllabus for B tech course offer by Rajasthan Technical University, Kota ...

B tech syllabus :
English :
Class B. Tech. 1st Semester Evaluation

Lectures : 2
Examination Time = Three (3) Hours
Maximum Marks = 100
[Mid-term (20) & End-term (80)]

Units Contents of the Subject
Short Stories
“The Gift of the Magi” by O. Henry
“The Fortune-Teller” by Karl Capek
“The Nightingale and the Rose” Oscar Wilde
Short Stories
“Dr. Heidegger’s Experiment” by Nathaniel Hawthorne
“The Three Dancing Goats” by Anonymous
“The Accompanist” by Anita Desai
“Mending Wall” by Robert Frost
“This is Going to Hurt Just a Little Bit” by Odgen Nash
“Death and Leveler” by James Shirley
“Last Lesson of the Afternoon” by D. H. Lawrence
“Night of the Scorpion” by Nissim Ezekiel
Short Plays
“The Dear Departed” by Stanley Houghton
“Refund” by Fritz Karinthy
“Monkey’s Paw” by W. W. Jacobs
“Of Studies” by Francis Bacon
“Third Thoughts” by E. V. Lucas
“Toasted English” by R. K. Narayana

Class B. Tech. 1st Semester Evaluation
Schedule per week
Lectures : 3
Tutorial : 1
Examination Time = Three (3) Hours
Maximum Marks = 100
[Mid-term (20) & End-term (80)]

Units Contents of the Subject
Differential Calculus
Asymptotes and Curvature (Cartesian Coordinates Only)
Concavity, Convexity and Point of Inflexion (Cartesian Coordinates Only)
Curve Tracing (Cartesian and Standard Polar Curves – Cardioids, Lemniscates of
Bernoulli, Limacon, Equiangular Spiral)
Differential Calculus
Partial Differentiation, Euler’s Theorem on Homogeneous Functions
Approximate Calculations
Maxima & Minima of Two and More Independent Variables
Lagrange’s Method of Multipliers
Integral Calculus
Applications in Finding the Length of Simple Curves
Surface and Volumes of Solids of Revolution
Double Integral, Areas & Volumes by Double Integration
Change of Order of Integration
Beta Function and Gamma Function (Simple Properties)
Differential Equations
Differential Equations of First Order and First Degree – Variable Separable,
Homogeneous Forms, Reducible to Homogeneous Form, Linear Form, Exact Form,
Reducible to Exact Form
Linear Differential Equations of Higher Order with Constant Coefficients Only
Differential Equations
Second Order Ordinary Differential Equations with Variables Coefficients
Homogeneous and Exact Forms
Change of Dependent Variable
Change of Independent Variable, Normal Forms
Method of Variation of Parameter

Class B. Tech. 1st Semester Evaluation
Schedule per week
Lectures : 2
Tutorial : 1
Examination Time = Three (3) Hours
Maximum Marks = 100
[Mid-term (20) & End-term (80)]

Units Contents of the Subject
Interference of light
• Michelson’s Interferometer: Production of circular & straight line fringes, Determination of
wavelength of light. Determination of wavelength separation of two nearby wavelengths.
• Newton’s rings and measurement of wavelength of light.
• Interference of Optical technology: elementary idea of anti-reflection coating and
interference filters.
Polarization of light
• Plane circular and elliptically polarized light on the basis of electric (light) vector, Malus
• Double Refraction: Qualitative description of double refraction phase retardation plates,
quarter and half wave plates, construction, working and use of these in production and
detection of circular and elliptically polarized light.
• Optical Activity: Optical activity and law of optical rotation, specific rotation and its
measurement using the half-shade and bi-quartz device.
Diffraction of light
• Single slit diffraction: Quantitative description of single slit, position of maxima / minima
and width of central maximum, intensity variation.
• Diffraction Grating: Construction and theory. Formation of spectrum by plane transmission
grating, Determination of wavelength of light using plane transmission grating.
• Resolving power: Geometrical & Spectral, Raleigh criterion, Resolving power of
diffraction grating,
Quantum Mechanics
• Compton effect & quantum nature of light.
• Schrödinger’s Wave Equation: Time dependent and time independent cases.
• Physical interpretation of wave function and its properties, boundary conditions.
• Particle in one-dimensional box.
Special Theory of Relativity
• Postulates of special theory of relativity, Lorentz transformations, relativity of length, mass
and time.
• Relativistic velocity addition, mass-energy relation.
• Relativistic Energy and momentum.

Class B. Tech. 1st Semester Evaluation
Schedule per week
Lectures : 3
Tutorial : -
Examination Time = Three (3) Hours
Maximum Marks = 100
[Mid-term (20) & End-term (80)]

Units Contents of the Subject
• Introduction: Stored Program Architecture of Computers, Evolution of Processors (In
terms of word length & Speed only), Storage Device- Primary Memory and Secondary
Storage, Working Principle of Primary Storage devices- RAM, ROM, PROM, EPROM,
EEPROM, Random, Direct, Sequential access methods.
• Language Translators – Concept of High-Level, Assembly and Low Level programming
languages. Working of Assembler, Interpreter and compiler. Representing Algorithms
through flow chart, pseudo code, step by step etc.
• Number System: Data Representation, Concept of radix and representation of numbers in
radix r with special cases of r=2, 8, 10 and 16 with conversion from radix r1 to radix r2. r’s
and (r-1)’s complement. Representation of Integer in sign-magnitude, signed 1’s and 2’s
complement. Floating point representation. Concept of bias and normalization.
Representation of alphabets.
• Binary Codes: Binary arithmetic, Addition and subtraction of Integers and floating point
numbers. Multiplication of Integers. Gray code, BCD 8421 and 2421, Excess-3 and
Excess-3 gray codes.
• Programming in C: Structure of C Program, Concept of Preprocessor, Macro Substitution,
Intermediate code, Object Code, Executable Code. Compilation Process,
• Basic Data types, Importance of braces ({ }) in C Program, enumerated data type,
Identifiers, Scope of Variable, Storage Class, Constants, Expressions in C, Type Casting,
Control Statements, printf( ), scanf ( ), reading single character. Command Line
Arrays in C, Pointers, Using pointers to represent arrays, Dynamic Memory allocation,
Structures, using typedef, Arrays of Structures & pointers, File Handling (Opening in
different modes & closing of file, fscanf & fprintf only).
Functions in C, Passing Parameters (By value & Reference), using returned data, Passing
arrays, structures, array of structures, pointer to structures etc., passing characters and
strings, The void pointer.

Class B. Tech. 1st Semester Evaluation
Schedule per week
Lectures : 3
Tutorial : 1
Examination Time = Three (3) Hours
Maximum Marks = 100
[Mid-term (20) & End-term (80)]

Units Contents of the Subject
• System of forces, Fundamental laws of mechanics, Composition of forces
• Free body diagram, Lami’s theorem
• Moments and couple, Varignon’s theorem, condition of equilibrium
• Types of support and loading, reaction, Analysis of simple trusses by methods of joints
and method of sections
Laws of Coulomb friction, Ladder, Wedges
Belt friction and rolling
Principle of virtual work and its applications
• Location of centroid and center of gravity, area moment of inertia, mass moment of
• Law of machines, Variation of mechanical advantages, efficiency, reversibility of
• Pulleys, wheel and axle, wheel and differential axle
• Transmission of power through belt and rope
Kinematics of Particle
Rectilinear motion, plane curvilinear motion
Projectile motion
Constrained motion of connected particles
Dynamics of Particle and Rigid Body
• Newton’s law of motion
• D’Alembert’s principle
Work and Energy
Work, energy (Potential, Kinetic and Spring)
Work – Energy relation
Law of conservation of energy
Impulse and Momentum
• Impulse, momentum
• Impulse – Momentum relation, Impact
Un-damped Free vibrations

Class B. Tech. 1st Semester Evaluation
Schedule per week
Lectures : 2
Tutorial : 1
Examination Time = Three (3) Hours
Maximum Marks = 100
[Mid-term (20) & End-term (80)]
Units Contents of the Subject
• Common Impurities of water
• Hardness of water: Determination of hardness by Clark’s test and complex
metric (EDTA) method, Degree of hardness
• Numerical based on hardness and EDTA method
• Municipal Water Supply: Requisites of drinking water, Steps involved in
purification of water, Sedimentation, coagulation, Filtration and Sterilization,
Break point chlorination
Water Treatment
• Softening of water: Lime-Soda Method, Permutit (Zeolite) Method and
Deionization or Demineralization Method
• Boiler troubles their causes, disadvantages and prevention: Formation of solids
(Scale and Sludge), Carry over (Priming and Foaming), Corrosion and Caustic
• Numerical problems based on Lime-Soda and Zeolite softening methods
• Different methods of classification and constituents of polymers
• Plastics: Themosets and Thermoplasts
• Preparation, Properties and uses of polyethylene, Bakelite, Terylene and Nylon
• Elastomers – Natural rubber, vulcanization, Synthetic Rubbers viz. Buna-S,
Buna-N, Butyl and neoprene rubbers
• Definition, Composition, basic constituents and their significance,
Manufacturing of Portland cement by Rotary Kiln Technology
• Chemistry of setting and hardening of cement and role of gypsum
• Definition, Properties, Manufacturing of glass
• Types of silicate glasses and their commercial uses
• Importance of annealing in glass making
• Definition, classification, properties, Requisites of good refractory and
manufacturing of refractory
• Detailed study of silica and fire clay refractory and their uses
• Seger’s (Pyrometric) Cone Test and RUL Test

• Introduction, classification and uses of lubricants.
• Types of lubrication.
• Viscosity & viscosity index, flash and fire point, cloud and pour point, steam
emulsification number, precipitation number and neutralization number

Class B. Tech. 1st Semester Evaluation
Schedule per week
Practical : 2
Maximum Marks = 75
[Sessional (45) & Practical (30)]

S.No. List of Experiments
(Any 7 experiments are to be performed)
To determine the wave length of monochromatic light with the help of Fresnel’s
2. To determine the wave length of sodium light by Newton’s Ring.
To determine the specific rotation of Glucose (Sugar) solution using a
4. To measure the Numerical Aperture of an Optical Fibre.
5. To convert a Galvanometer in to an ammeter of range 1.5 amp and calibrate it.
6. To convert a Galvanometer in to a Volt of range 1.5 volt and calibrate it.
To study the variation of semiconductor resistance with temperature and hence
determine the Band Gap of semiconductor in the form of reverse biased P-N
junction diode.
To study the variation of thermo e.m.f. of iron copper thermo couple with
9. To determine the wavelength of sodium light by Michelson Interferometer.
To determine coherent length and coherent time of laser using He-Ne Laser

Class B. Tech. 1st Semester Evaluation
Schedule per week
Practical : 2
Maximum Marks = 50
[Sessional (30) & Practical (20)]

S.No. List of Experiments
(Any 7 experiments are to be performed)
1. To determine the hardness of water by HCL method.
2. To determine the hardness of water by EDTA method.
3. Determination of CO2 in a water sample.
4. To determine free chlorine in a given water sample.
5. To determine the viscosity of a given lubricating oil by Redwood
6. Measurement of residual chlorine in water.
7. To determine the flash and fire point of a given lubricating oil.
8. Measurement of dissolves oxygen in water.
9. To determine cloud and pour point of a given oil.
Measurement of nitrate in water

The lab is to be conducted on Linux platform. vi editor is to be used.
Class B. Tech. 1st Semester Evaluation
Schedule per week
Practical : 2
Maximum Marks = 75
[Sessional (45) & Practical (30)]

S. No. List of Experiments
Simple OS Commands, vi editor, compiling program, compiler options, linking libraries.
Simple input output program integer, real character and string. (Formatted & Unformatted)
Conditional statement programs (if, if-else-if, switch-case)
Looping Program. (for, while, do-while)
Program based on array (one, two and three dimensions)
Program using Structure and Union.
Program using Function (with and without recursion)
Simple programs using pointers.
File handling.

Class B. Tech. 1st Semester Evaluation
Schedule per week
Practical : 3
Maximum Marks = 100
[Sessional (60) & Practical (40)]

S. No. List of Experiments
• Lines, Lettering and Dimensioning
• Scales: Representative factor, plain scales, diagonal scales, scale of chords
• Conic Sections: Construction of ellipse, parabola and hyperbola by different methods.
Normal and Tangents
• Special Curves: Cycloid, Epicycloids, Hypo-cycloid, Involutes, Archemedian and
logarithmic spirals
• Projections: Types of projection, Orthographic projection, First angle and third angle
• Projection of points and lines, True inclinations and true length of straight lines, Traces of
straight lines, Auxiliary planes
3. • Projection of planes and solids: Projection of planes, Projection of polyhedra, Pyramids,
Cylinder and Cone
4. • Sections of Solids: Section of right solids by normal and inclined planes
• Development of Surfaces: Parallel line and radial line method for right solids
5. • Isometric Projections: Isometric Scale, Isometric axes, Isometric projections of planes
and solids

Class B. Tech. 1st Semester Evaluation
Schedule per week
Practical : 2
Maximum Marks = 50
[Sessional (30) & Practical (20)]

S. No. List of Experiments
Carpentry Shop
• Timber, definition, engineering applications, seasoning and preservation
• Plywood and ply boards

Foundry Shop
• Moulding Sands, constituents and characteristics
• Pattern, definition, materials types, core prints
• Role of gate, runner, riser, core and chaplets
• Causes and remedies of some common casting defects like blow holes, cavities,

Welding Shop
• Definition of welding, brazing and soldering processes and their applications
• Oxyacetylene gas welding process, equipment and techniques, types of flames and their
• Manual metal arc welding technique and equipment, AC and DC welding
• Electrodes: Constituents and functions of electrode coating, welding positions
• Types of welded joints, common welding defects such as cracks, undercutting, slag
inclusion and boring

4. Fitting Shop
• Files, materials and classification.

Smithy Shop
• Forging, forging principle, materials
• Operations like drawing, upsetting, bending and forge welding
• Use of forged parts

List of jobs to be made in the workshop practice
S. No. List of Experiments
1. T – Lap joint
2. Bridle joint

3. Mould of any pattern
4. Casting of any simple pattern

5. Gas welding practice by students on mild steel flat
6. Lap joint by gas welding
7. MMA welding practice by students
8. Square butt joint by MMA welding
9. Lap joint by MMA welding
10. Demonstration of brazing

11. Job on lathe with one step turning and chamfering operations
12. Job on shaper for finishing two sides of a job
13. Drilling two holes of size 5 and 12 mm diameter on job used / to be used for shaping
14. Grinding a corner of above job on bench grinder

15. Finishing of two sides of a square piece by filing
16. Tin smithy for making mechanical joint and soldering of joint
17. To cut a square notch using hacksaw and to drill three holes on PCD and tapping

Class B. Tech. 2nd Semester Evaluation
Schedule per week
Lectures : 3
Examination Time = Three (3) Hours
Maximum Marks = 100
[Mid-term (20) & End-term (80)]

Units Contents of the Subject
Words and Sentences
Verbs / Tenses
Questions / Questions Tags
Modal Verbs
The Passive
• The Infinitive and The ING form
• Nouns and Articles
• Determiners
• Reported Speech
• Adjectives and Adverbs
• Prepositions
• Verbs with Prepositions and Adverbs
• Pronouns
• Relative Clauses
• Conditionals
• Linking Words
• Essay and Report Writing
• Review Writing
• Applications, Letter and Précis Writing
• Technical Proposal Writing

Class B. Tech. 2nd Semester Evaluation
Schedule per week
Lectures : 3
Tutorial : 1
Examination Time = Three (3) Hours
Maximum Marks = 100
[Mid-term (20) & End-term (80)]

Units Contents of the Subject
Coordinate Geometry of Three Dimensions
• Equation of a sphere
• Intersection of a sphere and a plane, tangent plane, normal lines
• Right circular cone
• Right circular cylinder 7
• Rank of a matrix, inverse of a matrix by elementary transformations
• Solution of simultaneous linear equations
• Eigen values and Eigen vectors, Cayley – Hamilton theorem (without proof)
• Diagonalization of matrix 7
Vector Calculus
Scalar and vector field, differentiation & integration of vector functions
Gradient, Divergence, Curl and Differential Operator
Line, Surface and volume Integrals
Green’s Theorem in a Plane, Gauss’ and Stoke’s Theorem (without proof) and their
Applications 9
• Angular Motion, Radial and Transverse Velocities and Accelerations
• Tangential and Normal Accelerations
• Rectilinear Motion in Resisting Medium 8
Differential Equations
Series Solutions of Second Order Linear Differential Equations with Variable Coefficients
(Complementary Functions only)
Partial Differential Equations of First Order
Lagrange’s Form, Standard Forms
Charpit’s Method 8

Class B. Tech. 2nd Semester Evaluation
Schedule per week
Lectures : 2
Tutorial : 1
Examination Time = Three (3) Hours
Maximum Marks = 100
[Mid-term (20) & End-term (80)]

Units Contents of the Subject
Applications of Schrödinger’s Equation
• Particle in three-dimensional boxes. Degeneracy
• Barrier penetration and tunnel effect.
• Tunneling probability, Alpha Decay.
Summerfield’s Free electron gas model
• Postulates, Density of energy states, Fermi energy level.
• Band Theory of solids
• Theory of laser action: Einstein’s coefficients, Components of a laser,
Threshold conditions for laser action.
• Theory, Design and applications of He-Ne and semiconductor lasers.
• Elementary ideas of Q-switching and mode locking.
• Holography versus photography, Basic theory of holography, Basic
requirement of a holographic laboratory.
• Applications of holography in microscopy and interferometry.
• Spatial and temporal coherence, Coherence lenght, Coherence time and ‘Q’
factor for light.
• Visibility as a measure of coherence.
• Spatial Coherence and size of the source.
• Temporal coherence and spectral purity.
Optical Fibers
• Optical fiber as optical wave-guide.
• Numerical aperture and maximum angle of acceptance.
Nuclear Radiation Detectors and Dielectrics
• Characteristics of gas filled detectors: general considerations.
• Constructions, Working and properties of: Ionization chamber, proportional
Counter, G.M.Counter and Scintillation Counter.
• Dielectrics: Electric break down and measurement of dielectric constant
Electro Dynamics
• Scalar and Vector fields
• Definitions of gradient Divergence and curl
• Maxwell’s Equations
• Boundary Conditions
• Wave equation and its solution for free space
• Nature of E.M. Waves, Poynting vector

Class B. Tech. 2nd Semester Evaluation
Schedule per week
Lectures : 3
Examination Time = Three (3) Hours
Maximum Marks = 100
[Mid-term (20) & End-term (80)]

Units Contents of the Subject
Basics of Environment. Adverse effects of environmental pollution and control strategies.
Environmental Acts and Regulations. Functional concepts of Ecology. Basics of species.
Ecosystem. Hydrological and chemical cycles. Energy flow in ecosystems. Biodiversity,
population dynamics. Renewable sources of energy. Potential & present status of renewable
sources of energy in India .
Quality and quantity of potable water. Surface and ground water sources. Basics of water
supply schemes. Treatment of water. Wastewater management, Treatment & disposal of
wastewater. Anaerobic digestion, Septic tanks. Reuse and saving in use of water. Onsite
sanitation. Environmental Impact Assessment (EIA). Necessity and methodology of EIA.
Air Pollution. Harmful effects of Air Pollution. Control of Air Pollution. Noise Pollution.
Adverse effects and control of noise pollution. Global warming, Acid rain, Ozone depletion.
Solid Waste Management. Classification of solid waste. Collection, transportation, treatment,
and disposal of solid waste. Energy recovery. Sanitary landfill.
Type of Disasters: Natural and Manmade (Earthquake, Tsunami, Cyclone, Flood, Drought,
Landslides, Nuclear, Chemical, Fire and Environmental Hazards). Disaster Management Cycle
and its components. Vulnerability of Indian Continent to different types of Disasters. Do’s and
Don’ts for safety during these disasters.
Introductory seismology, Occurrence of Earthquakes, Plate Tectonic Theory, types of
Definitions; Earthquake Magnitude, Intensity and their scales, Focus, Focal Depth, Epicentre,
Epicentral Distance, Earthquake Energy. Concept of Seismic Zoning. Basic Concepts of
Earthquake Resistant Houses & Construction Practices.

Class B. Tech. 2nd t Semester Evaluation
Schedule per week
Lectures : 3
Examination Time = Three (3) Hours
Maximum Marks = 100
[Mid-term (20) & End-term (80)]

Units Contents of the Subject
• DC Networks: Kirchoff’s Laws, Node Voltage and Mesh Current Analysis;
Delta-Star and Star-Delta Transformation, Source Conversion. Classification of
Network Elements, Superposition Theorem, Thevenin’s Theorem.
• Single Phase AC Circuits: Generation of Single Phase AC Voltage, EMF
Equation, Average, RMS and Effective Values. RLC Series, Parallel and Series-
Parallel Circuits, Complex Representation of Impedances. Phasor Diagram,
Power and Power Factor.

• Three Phase A.C. Circuits: Generation of Three-Phase AC Voltage, Delta and
Star-Connection, Line & Phase Quantities, 3-Phase Balanced Circuits, Phasor
Diagram, Measurement of Power in Three Phase Balanced Circuits.
• Transformer: Faraday’s Law of Electromagnetic Induction, Construction and
Operation of Single Phase Transformer, EMF Equation, Voltage & Current
Relationship and Phasor Diagram of Ideal Transformer.

• Electrical DC Machine: Principle of DC Machines, Types, Different Parts of
DC Machines.
• Transistor: Bipolar Junction Transistor, Transistor Current Components,
Characteristics of CE, CB and CC Transistor Amplifiers.
• Thyristors: The four layer diode, Bi-directional thyristors, the uni-junction
transistor and its application in thyristor circuits.
• Communication System: Introduction to modulation (AM, FM & PM),demodulation,
multiplexing. Superhetrodyne radio receiver, television.Elementary concepts of optical,
satellite & mobile communication.

Class B. Tech. 2nd Semester Evaluation
Schedule per week
Lectures : 2
Tutorial : 1
Examination Time = Three (3) Hours
Maximum Marks = 100
[Mid-term (20) & End-term (80)]
Units Contents of the Subject
Fuels ( General Aspects)
• Organic fuels: Origin, classification and general aspects of organic fuels
• Solid fuels: Coal, carbonization of coal, manufacturing of coke by Beehive oven and
By product oven method.
• Liquid fuels: Advantages and refining of petroleum. Cracking, refining, reforming,
polymerization and isomerization of refinery products
• Synthetic petrol( Coal to Liquid, CTL, Technology): Berguis and Fischer Tropsch
• Knocking, octane number and anti-knocking agents
• Gaseous fuels: Advantages, manufacturing, composition and calorific value of coal,
gas and oil gas.
Fuels (Analyses)
• Ultimate and proximate analysis of coal.
• Determination of solid and gaseous fuels by bomb and Junker’s Calorimeter
• Calculations of calorific value based on Dulong’s formula.
• Combustion and requirement of oxygen/ air in combustion process.
• Flue gas analysis by Orsat’s apparatus and its significance.
Phase Rule
• Statement, Definition and meaning of the terms involved
• Application to one component system: Water and Sulphur systems
• Reduced Phase Rule and study of two components Ag-Pb, Bi-Cd systems also its
industrial application.
New Engineering Materials
• Fullerenes: Introduction, properties, preparation and uses.
• Superconductors: Introduction, properties, preparation and uses
• Organic Electronic Materials (including conducting polymers- poly(p-phenylene),
polythiophenes, Polyphenylene vinylenes, polypyroles, polyaniline).
• Optical fires: Introduction, properties, preparation, optical fiber grade glass and uses.
• Definition and its significance
• Mechanisms of corrosion: Chemical(Dry) corrosion and Electrochemical(Wet)
• Protection from corrosion: Protective coatings, cathodic protection, sacrificial anode
and modification in designs etc.

Class B. Tech. 2nd Semester Evaluation
Schedule per week
Practical : 2
Maximum Marks = 75
[Sessional (45) & Practical (30)]

S.No. List of Experiments
(Any 7 experiments are to be performed)
To determine the height of water tank with the help of a Sextant.
To determine the dispersive power of material of a Prism for Violet Red and
Yellow colours of Mercury light with the help of a spectrometer.
To determine the wave length of prominent lines of mercury by plane diffraction
Grating with the help of spectrometer.
To determine the ferromagnetic constants retentivity, permeability and
susceptibility by tracing I-H curve using C.R.O.
To study the Charge & Discharge of a condenser and hence determine time
constant (Both current and voltage graphs are to be plotted.
To determine the high resistance by method of leakage, using a Ballistic
To determine dielectric constant of a liquid using moving coil Ballistic
8. To study characteristics of G.M. Counting System.
To determine the absorption coefficient of lead using using lead sheet by G.M.
Counting System.
10. To verify the expression for the resolving power of a Telescope.
To determine the specific resistance of the material of a wire by Carey Fosters

Class B. Tech. 2nd Semester Evaluation
Schedule per week
Practical : 2
Maximum Marks = 50
[Sessional (30) & Practical (20)]

S.No. List of Experiments
(Any 7 experiments are to be performed)
1. Proximate analysis of solid fuel.
2. Experiments based on Bomb Calorimeter.
3. Measurement of pH of a given sample by pH-meter.
4. Measurement of conductivity of a given sample by conductivity meter.
5. Measurement of fluoride in water.
6. To determine the strength of CuSO4 solution with the help of hypo solution.
To determine the strength of Ferrous Ammonium sulphate solution with the
help of K2Cr2O7 solution.
8. Determination of Na/K/Ca by flame photometer in a given sample.
To determine the strength of NaOH and Na2CO3 in a given alkali mixture.
Determination of barium as barium sulphate gravimetrically.

Class B. Tech. 2nd Semester Evaluation
Schedule per week
Practical : 2
Maximum Marks = 75
[Sessional (45) & Practical (30)]

S. No. List of Experiments
1. Single line diagram of a power system and a distribution sub-station and basic functional study
of main components used in power systems.
Make house wiring including earthing for 1-phase energy meter, MCB, ceiling fan, tube light,
three pin socket and a lamp operated from two different positions. Basic functional study of
components used in house wiring.
Study the construction and basic working of ceiling fan, single phase induction motor and three
phase squirrel cage induction motor. Connect ceiling fan along with regulator and single phase
induction motor through auto-transformer to run and vary speed.
(a) Basic functional study and connection of moving coil & moving iron ammeters and
voltmeters, dynamometer, wattmeter and energy meter.
(b) Run a 3-phase squirrel cage induction motor at no load and measure its voltage, current,
power and power factor. Reverse the direction of rotation.
Study the construction, circuit, working and application of the following lamps:
(i) Fluorescent lamp, (ii) Sodium vapour lamp, (iii) Mercury vapour lamp, (iv) Halogen lamp and
(v) Neon lamp
(a) Study the construction and connection of single phase transformer and auto-transformer.
Measure input and output voltage and fin turn ratio.
(b) Study the construction of a core type three phase transformer. Perform star and delta
connection on a 3-phase transformer and find relation between line and phase voltage.

7. Identification, testing and applications of resistors, inductors, capacitors, PN-diode, Zener diode,
LED, LCD, BJT, FET, UJT, SCR, Photo diode and Photo transistor.
8. (a) Functional study of CRO, analog & digital multi-meters and function / signal generator.
(b) Study the single phase half wave and bridge rectifier and effects of filters on waveform.
9. Study the BJT amplifier in common emitter configuration. Measure voltage gain, plot gain
frequency response and calculate its bandwidth.
(a) Study the construction and basic working of SCR.
(b) Study the single phase half wave and bridge controlled rectifier and observe the effect of
firing angle on waveform.

Class B. Tech. 2nd Semester Evaluation
Schedule per week
Practical : 3
Maximum Marks = 100
[Sessional (60) & End-term (40)]

S. No. List of Experiments
Introduction to machine drawing
Dimensioning, locations and placing,
Orthographic projections: First & third angle methods
Sheet 1: Orthographic Projections (3 Problems)
Sheet 2: Sectional Views (3 Problems)
Sheet 3: Riveted joints, lap joints, butt joints, chain riveting, zig-zag riveting
Sheet 4: Screw fasteners, different threads, Nuts & bolts locking devices, set screws,
Sheet 5: Bearing, Plumber block
Lectures on free hand sketches
List of free hand sketches

• Different type of lines
• Conventional representation of materials
• Screw fasteners
• Bearing: Ball, roller, needle, foot step bearing
• Coupling: Protected type, flange, and pin type flexible coupling
• Welded joints
• Belts and pulleys
• Pipes and pipe joints
• Valves

Class B. Tech. 2nd Semester Evaluation
Schedule per week
Practical : 2
Maximum Marks = 50
[Sessional (30) & End-term (20)]

S. No. Contents of the Subject
Phonetic symbols and transcription
One word for many
Synonyms and antonyms
Word forms
Words commonly mis-spelt and mis-pronounced
Seminar Presentations
Group Discussions

1. Total teaching per week in a semester should be between 30 to 32 periods of 55 minute
each. However, in the last semester, the teaching per week may be between 28 to 32
2. In each semester there should be 6 theory papers of 100 marks each except in 8th
Semester, which should have 4 theory papers of 100 marks each. One paper should be
elective in each Semester (From 3rd Semester to 8th Semester).
3. Each theory paper will have two term tests of 10 marks each. Thus the total marks of term
test and theory paper will be 20 and 80 respectively for each theory paper.
4. In each semester, 50 marks will be assigned for discipline and extra curricular activities.
5. Total marks in each semester will be 1000 (inclusive of discipline and extra curricular
6. Practical Training during summer at the end of 6thsemester will be held for 30 days.
Industrial and Technical visits may be organized for 10 days after 5th Semester.
7. Students will have to give presentation on their Practical Training after coming back. One
slot of 2 periods per week is to be provided in 7th Semester for presentation.
8. For Practical Training 100 marks are assigned in 7th Semester (inclusive of 20 marks for
Industrial and Technical visit reports as the part of sessional component)
9. In 8th semester 25 working days are being provided exclusively for Project work at the end
of academic teaching. During academic teaching 2/2 periods per week are assigned in 7th
semester and two periods per week are being provided in 8th semester for project. Project
allotment and working will start in 7th semester for which 50 marks are assigned. The same
project may be continued/ extended in 8th semester for which 200 marks are assigned.
10. In 8th Semester one slot of 2 periods per week are to be provided for seminar. Marks to be
assigned for seminar are 100.
11. Duration of the examination hours for theory paper will be 3 hours, in general.
12. Each theory paper needing sessional/practical should have it in the same semester, in
In each practical and sessional subject 60 marks are reserved for term work done during the
term/semester 40% marks are assigned for end of terms/semester comprehensive
For assessment of work done during mid-term/mid semester the 60% component is to be
distributed under the following heads for practicals and sessionals.
- Attendance (10%)
- Performance of practicals/drawing/design and submission of records (30%)
- Two mid term/ semester exams through Quiz/Practical/Drawing/design during the
term/semester (20%)
- For 40% component (comprehensive examination) minimum two of the following three
would be used to conduct the examination.
(i) Quiz (ii) Viva, (iii) Practical/drawing/design.

Contact details :
Rajasthan Technical University, Kota
Rawatbhata Road, Kota - 324010
Email: rtuweb@gmail.com
Phone: 0744-2473861

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