#1
10th September 2015, 02:52 PM
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MPUAT Jet Syllabus
I want to get admission at MPUAT University. So I have to appear in JET Entrance Exam. So is there any one who will provide syllabus of JET Entrance Exam?
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#2
11th September 2015, 08:38 AM
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Re: MPUAT Jet Syllabus
Here you are looking to get syllabus of JET Entrance Exam conducted by MPUAT University, so here I am giving following syllabus: MPUAT JET Entrance Exam Syllabus Physics Chemistry Mathematics Biology Agriculture Home Science PHYSICS UNIT – A Dynamics of a particle: Conservative and non-conservative force, Motion of a particle under different types of forces or potentials : constant, linearly varying and variable conservation of linear momentum and energy. Application, direct and oblique collision between particles, elastic and inelastic collisions. Static and dynamical problems involving forces and conservation laws. Rotational motion: Centre of mass and its calculation for a two or more particle system and for rigid body. Genera motion of a rigid body, nature of rotational motion, rotational motion of single particle in a plane torque, angular momentum and its geometrical and physical meaning, conservation of angular momentum. Examples of circular motion : car on a level circular road, car on a banked road, pendulum or particle swinging in a vertical plane. Rigid body rotation and conservation of its angular momentum. Comparison of linear and rotational motions. Definition of moment of inertia, parallel axis theorem, Perpendicular axis theorem for a plane lamina. Calculation of M. I. in case of ring disc, cylinder and sphere, Motion of a rigid body on an inclined plane. UNIT – B Heat & Termodynamics: Heat & Temperature, Zeroth law of thermodynamics, mechanical equivalent of heat, First law of thermodynamics, thermodynamics state isothermals and adiabatics. Pressure temperature and pressure volume indicator diagrams. Work done during isothermal and adiabatic process, equilibrium process and phase changes, Evaporation. Thermal expansion, variation of volume and pressure of a gas with temperature, Transter of heat conduction, convection and radiation. Thermodynamics: Reversible and irreversible thermodynamics processes, Carnot cycle, Second law of thermodynamics, efficiency of heat engine, Heat engines; external and internal combustion engines (description only). Radiation: Nature of heat radiation emissive and absorptive powers of body, black body, emissivity. Kirchoff”s law with illustrations, Stefan’s law and Newton’s law of cooling, distribution of energy in Black body spectrum, Wien’s displacement Law, idea of Plank’s law of radiation. UNIT – C Waves: Wave motion, longitudinal and transverse waves, wave length, frequency, time period, amplitude of a wave. Sound waves, velocity of sound waves. Equation of a simple harmonic wave displacement, velocity and acceleration of a particle during propagation of a wave. Reflection and refraction of a wave. Superposition of waves, interference of sound waves, beats stationary waves, nodes and antinodes. Stationary waves in pipes and strings, Resonance tube, Elementary ideas of musical scale and acoustic of buildings. Doppler effect in sound waves. Wave Optics: Interference phenomenon; conditions of sustained interference, Young’s double slit experiment, Fresnel’s Bi-Prism, Fringe-width and determination of wave length, Diffraction: diffraction phenomena : Fresnel’s and Fraunhofer class of diffraction, Fresnel’s half period zone theory, Diffraction due to a circular obstacle and circular aperture on axial points. Diffraction due to a single silt (qualitative). Resolving power of telescope and microscope, Polarization: polarized and unpolazised waves. Plane polarized, circulary polarized and elliptically polarized light. Identification of polarized and unpolarized light by-polaroid. Methods of obtaining the plane polaring length. Relativity: Necessivity of the theory of relativity, Postulates of special theory of relativity, consequences, qualitative information about length contraction, time dilation and mass energy relation. UNIT – D Electrostatics: Electric field vector, Free and bound changes in conductors and insulators, Behaviour of electric field and potential inside and on the surface of a conductor and a dielectric flux, Gauss’s theorem and its applications in calculating electric field at any point due to a uniformly charged spherical shell (inside and outside), spherical conductor, sphere made up of volume distribution of charge, sheet of uniform charge density of infinite dimensions made up of a dielectric or of a conducting material, a line charge of infinite length. Force on the surface of a charged conductor Energy density in an electric field. Capacitors: Combination and types. Capacity: capacity of a parallel plate and spherical condenser, condensers in series and parallel, Energy of a charged condenser. Kirchoff’s Laws: Kirchoff’s Laws of electrical circuits and its application to electrical circuits. Potentiometer: Principal of potentiometer, Measurement of EMF and small potential difference, calibration of voltmeter and ammeter and measurement of internal resistance of a primary cell. Magnetic effects of current: Ampere’s law and its applications: Magnetic induction at any point due to a long straight current carrying wire, magnetic induction inside a long solenoid, magnetic induction inside a toroid. Electromagnetic Induction: Magnetic flux, induced EMF. Faraday’s law Lenz’s law. Induced current and energy balance in a rectangular loop moving in a non uniform magnetic induction with a constant velocity, Back EMF developed when a uniform magnetic induction between them, potential difference developed across a conducting rod moving with a conducting wire moves two parallel conducting rails carrying current with a uniform velocity across a uniform magnetic induction, a conducting rod rotating in a uniform magnetic induction with a constant angular velocity and a metal disc rotating in a uniform magnetic induction with a constant angular velocity, Rectangular coil rotating in a uniform magnetic induction, Self and Mutual induction. Alternating currents: Direct current alternating current, fluctuating D. C. and sinusoidal currents, Instantaneous, Average and root mean square value for A. C. Phase relationship between current and EMF in sinusoidal A. C., circuit containing (i) Pure resistance (ii) a resistance and an inductance, (iii) resistance and a capacitor, Impedance, resistance, reactance and susceptance. Series – L. C. R. resonant circuit, Q factor & Band with power in an A. C. circuit wattles current Electrical devices & machines: transformers, induction coil, A. C. and D. C. generators and motors, choke and starter. Electromagnetic waves: Short history of EM waves (Maxwell, Hertz, Bose, Marconi), Basic concepts of electromagnetic oscillations, electromagnetic spectrum (radio-microwaves, infra red, optical, ultra violet, X-rays, gamma rays. Photo Electric Effect and Matter Waves: Photo electric effect, Einstein’s explanation, Photo electric equation, photo cells. De Broglie’s concept of matter waves Davisson and Germer experiment. Thompsons experiment. Semiconducting Electronic Devices: Electrons in solids, classification of metals, semiconductors and insulators, Intrinsic and extrinsic semi-conductors. P-type and N-type semi conductors. Semi conducting p-n junction diode and its characteristic. P-n-p and n-p-n junction transistors thir characteristics and parameters. Application in simple ideas and working of C.R.O. radio television and computer (explanation of working with block diagrams) MPUAT JET Entrance Exam Syllabus |