KIITEE 2013 SYLLABUS FOR B.TECH. (LATERAL ENTRY)
MATHEMATICS
Unit 1: Ordinary Differential Equation
Differential equation of first order. Linear differential equation of second order (homogeneous and nonhomogeneous case). Cauchy, Euler’s equation, Application of first order differential equations (mixture problem, Newton’s law of cooling,
orthogonal trajectory). Application to LCR circuits, Application to free and forced
vibration of Mass spring system.
Unit 2: Series Method
Properties of power series, Radius of convergence of power series, Legender’s
equation and Legender’s polynomial, properties of Legender’s polynomial, Gamma function, ordinary and singular point Frobenious method, Bessel’s equation and properties of Bessel’s function.
Unit 3: Laplace Transform
Laplace transforms of standard function, periodic functions, Unit step function,
Transforms of derivatives and integrals. Differentiation and integration of
transforms, Linearity property, Inverse Laplace transform, Shifting theorems,
Convolution. Application to solve differential and integral equations ( initial
value problem).
Unit 4: Fourier Series
Periodic function, Fourier series, Euler’s formula, Even and odd functions, Fourier
series expansions of even and odd function, half range expansion of functions,
Expansion of functions with finite discontinuities.
Unit 5: Matrix
Types of matrices, algebra of matrices, rank, solution of non-homogenous system of equations, consistency of the system of equations, Linear dependance and
independance, solution of homogeneous system of equation. Eigen values and eigen vectors. Norm and inner product. Orthogonal and projection matrix.
Application of eigen values and vectors to solve the system of homogeneous linear differential equation.
Unit 6 : Vectors:
Vector algebra, product of vectors, vector differentiation, vector differential operator, gradient, directional derivatives, divergence, curl, line integral, double integral, green’s theorem.
ENGINEERING MECHANICS
Unit 1:- Statics
Conditions of equilibrium, concept of free body diagram, methods of moments and
solution to engineering problems. Friction : Static friction, ladder friction,
problems with friction, Belt friction and screw jack, force analysis of plane trusses ( method of joint, method of sections, plane frames, methods of members), Parallel
forces in a plane, Centre of parallel forces, Pappus Guldinus theorems, MI of plane
figures, parallel axis theorem, perpendicular axis theorem, Polar MI, Principle of virtual work for a single particle, rigid bodies, ideal systems and constrained bodies.
Unit 2: Dynamics
Force proportional to displacement, free vibration, D’ Alembert’s principle,
momentum and impulse. Application to principle of linear momentum to a single
particle, rigid bodies and ideal systems. Application to principle of angular
momentum to a single particle and rotating rigid bodies. Principle of conservation of momentum.
Unit 3: Work and Energy
Principle of work and energy for ideal system, Conservation of energy.
BASIC ELECTRICAL ENGINEERING
Unit 1: Electrostatics
Coulomb’s law, Electric charge, Potential, Field & Capacitance, Potential gradient due to spherical cylindrical and plane charges, Electric force, Flux density and permitivity. Calculation of Capacitance of spherical, coaxial, cylindrical and parallel plate condenser. Energy stored in a electric field.
Unit 2: Electromagnetism
Magnetic field due to current in conductor. Magnetic field intensity and Flux density. Permeability, B-H curves, Magnetisation, Concept in hystersis. Magnetomotive force and Magnetic reluctance. Electrodynamic force:- Faraday’s law of electromagnetic induction, Eddy current, emf induced in a conductor moving in a magnetic field. Energy stored in a magnetic field.
Unit 3: D.C. Circuit
Current distribution in series and parallel circuit. Power and energy in electric circuit.Star-Delta conversion. Kirchoff;s law & its application and solve electric circuit by branch & loop current method & nodal method. Superposition theorem.
Unit 4: A.C. Circuit
Production of alternating current – Instantaneous, average & rms value of
current and voltage. Peak factor, Form factor, Amplitude, Frequency, Phase
difference, Addition and subtraction of alternating quantity. Phasor diagram,
Resistance, Inductance, Capacitance, impedance and admittance- power and
power factor-series and parallel circuits. Q factor-Three phase circuit. Star-Delta
connection-Active and reactive power. Power measurement with one and two wattmeter methods-Calculation in RLC circuit, in series circuit.
Unit 5: Instrument
Construction and principle of operationPMMC, MI and dynamometer type
ammeter, voltmeter and dynamometer type
wattmeter. Power factor meter.
Unit 6: Illumination
Law of illumination- Solid angle, Luminous flux, Luminous intensity, illumination
brightness and luminous efficiency.
Unit 7: Production Light
Filament lamp, Arc lamp, Electric discharge lamps, Sodium vapour lamp, Mercury
vapour lamp-Theory of electrical energy radiation. Comparison between filament
lamp and fluorescent lamp.
MATHEMATICS
Unit 1: Ordinary Differential Equation
Differential equation of first order. Linear differential equation of second order (homogeneous and nonhomogeneous case). Cauchy, Euler’s equation, Application of first order differential equations (mixture problem, Newton’s law of cooling,
orthogonal trajectory). Application to LCR circuits, Application to free and forced
vibration of Mass spring system.
Unit 2: Series Method
Properties of power series, Radius of convergence of power series, Legender’s
equation and Legender’s polynomial, properties of Legender’s polynomial, Gamma function, ordinary and singular point Frobenious method, Bessel’s equation and properties of Bessel’s function.
Unit 3: Laplace Transform
Laplace transforms of standard function, periodic functions, Unit step function,
Transforms of derivatives and integrals. Differentiation and integration of
transforms, Linearity property, Inverse Laplace transform, Shifting theorems,
Convolution. Application to solve differential and integral equations ( initial
value problem).
Unit 4: Fourier Series
Periodic function, Fourier series, Euler’s formula, Even and odd functions, Fourier
series expansions of even and odd function, half range expansion of functions,
Expansion of functions with finite discontinuities.
Unit 5: Matrix
Types of matrices, algebra of matrices, rank, solution of non-homogenous system of equations, consistency of the system of equations, Linear dependance and
independance, solution of homogeneous system of equation. Eigen values and eigen vectors. Norm and inner product. Orthogonal and projection matrix.
Application of eigen values and vectors to solve the system of homogeneous linear differential equation.
Unit 6 : Vectors:
Vector algebra, product of vectors, vector differentiation, vector differential operator, gradient, directional derivatives, divergence, curl, line integral, double integral, green’s theorem.
ENGINEERING MECHANICS
Unit 1:- Statics
Conditions of equilibrium, concept of free body diagram, methods of moments and
solution to engineering problems. Friction : Static friction, ladder friction,
problems with friction, Belt friction and screw jack, force analysis of plane trusses ( method of joint, method of sections, plane frames, methods of members), Parallel
forces in a plane, Centre of parallel forces, Pappus Guldinus theorems, MI of plane
figures, parallel axis theorem, perpendicular axis theorem, Polar MI, Principle of virtual work for a single particle, rigid bodies, ideal systems and constrained bodies.
Unit 2: Dynamics
Force proportional to displacement, free vibration, D’ Alembert’s principle,
momentum and impulse. Application to principle of linear momentum to a single
particle, rigid bodies and ideal systems. Application to principle of angular
momentum to a single particle and rotating rigid bodies. Principle of conservation of momentum.
Unit 3: Work and Energy
Principle of work and energy for ideal system, Conservation of energy.
BASIC ELECTRICAL ENGINEERING
Unit 1: Electrostatics
Coulomb’s law, Electric charge, Potential, Field & Capacitance, Potential gradient due to spherical cylindrical and plane charges, Electric force, Flux density and permitivity. Calculation of Capacitance of spherical, coaxial, cylindrical and parallel plate condenser. Energy stored in a electric field.
Unit 2: Electromagnetism
Magnetic field due to current in conductor. Magnetic field intensity and Flux density. Permeability, B-H curves, Magnetisation, Concept in hystersis. Magnetomotive force and Magnetic reluctance. Electrodynamic force:- Faraday’s law of electromagnetic induction, Eddy current, emf induced in a conductor moving in a magnetic field. Energy stored in a magnetic field.
Unit 3: D.C. Circuit
Current distribution in series and parallel circuit. Power and energy in electric circuit.Star-Delta conversion. Kirchoff;s law & its application and solve electric circuit by branch & loop current method & nodal method. Superposition theorem.
Unit 4: A.C. Circuit
Production of alternating current – Instantaneous, average & rms value of
current and voltage. Peak factor, Form factor, Amplitude, Frequency, Phase
difference, Addition and subtraction of alternating quantity. Phasor diagram,
Resistance, Inductance, Capacitance, impedance and admittance- power and
power factor-series and parallel circuits. Q factor-Three phase circuit. Star-Delta
connection-Active and reactive power. Power measurement with one and two wattmeter methods-Calculation in RLC circuit, in series circuit.
Unit 5: Instrument
Construction and principle of operationPMMC, MI and dynamometer type
ammeter, voltmeter and dynamometer type
wattmeter. Power factor meter.
Unit 6: Illumination
Law of illumination- Solid angle, Luminous flux, Luminous intensity, illumination
brightness and luminous efficiency.
Unit 7: Production Light
Filament lamp, Arc lamp, Electric discharge lamps, Sodium vapour lamp, Mercury
vapour lamp-Theory of electrical energy radiation. Comparison between filament
lamp and fluorescent lamp.
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