KIIT Phd Entrance Syllabus - 2018-2019 StudyChaCha

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#1
November 10th, 2017, 03:06 PM
 Unregistered Guest Posts: n/a
KIIT Phd Entrance Syllabus

Someone is here who will provide detailed syllabus of KIIT Phd Entrance Exam? My sister has completed Master Degree and wants to join KIIT University for Ph.d Course. So please provide syllabus of KIIT Phd Entrance Exam to start preparation?
#2
November 10th, 2017, 04:21 PM
 Super Moderator Join Date: May 2011 Location: Delhi Posts: 38,280
Re: KIIT Phd Entrance Syllabus

As you want to download syllabus of KIIT Phd Entrance Exam, so I want to inform you that you have to mention research subject chosen for Ph.D Program.

Then I can provide syllabus of Ph.D Entrance Exam.

I am giving exam scheme for KIIT Phd Entrance Exam:

Subjects Questions
Teaching and Research Aptitude 60
Subject Specific 60

The KIIT University conducts Entrance Exam for following courses also:

B. TECH.(4 years)

MBBS/BDS/BSc Nursing

Biotechnology - Dual Degree (B.Tech & M.Tech)(5 years)

BBA , BCA, BA. LLB/BBA. LLB/B.Sc. LLB/ BFD /BFTP

B.Sc (Nursing)(4 years)

B. TECH. (LE) (3 years)

MCA(3 years)

M. TECH.(2 years)

M. SC. (BIOTECHNOLOGY) & M. SC. (MICROBIOLOGY) (2 years)

LLM

Master of Mass Communication

Ph.D Entrance Exam for Physics Syllabus

Mathematical Methods of Physics
Dimensional analysis; Vector algebra and vector calculus; Linear algebra, matrices, Cayley
Hamilton theorem, eigenvalue problems; Linear differential equations; Special functions
(Hermite, Bessel, Laguerre and Legendre); Fourier series, Fourier and Laplace transforms;
Elements of complex analysis: Laurent series-poles, residues and evaluation of integrals;
Elementary ideas about tensors; Introductory group theory, SU(2), O(3); Elements of
computational techniques: roots of functions, interpolation, extrapolation, integration by
trapezoid and Simpson’s rule, solution of first order differential equations using Runge-Kutta
method; Finite difference methods; Elementary probability theory, random variables, binomial,Poisson and normal distributions.

Classical Mechanics
Newton’s laws; Phase space dynamics, stability analysis; Central-force motion; Two-body
collisions, scattering in laboratory and centre-of-mass frames; Rigid body dynamics, moment
of inertia tensor, non-inertial frames and pseudoforces; Variational principle, Lagrangian and
Hamiltonian formalisms and equations of motion; Poisson brackets and canonical
transformations; Symmetry, invariance and conservation laws, cyclic coordinates; Periodic
motion, small oscillations and normal modes; Special theory of relativity, Lorentz
transformations, relativistic kinematics and mass–energy equivalence.

III. Electromagnetic Theory
Electrostatics: Gauss’ Law and its applications; Laplace and Poisson equations, boundary valueproblems; Magnetostatics: Biot-Savart law, Ampere's theorem, electromagnetic induction;Maxwell's equations in free space and linear isotropic media; boundary conditions on fields atinterfaces; Scalar and vector potentials; Gauge invariance; Electromagnetic waves in freespace, dielectrics, and conductors; Reflection and refraction, polarization, Fresnel’s Law,interference, coherence, and diffraction; Dispersion relations in plasma; Lorentz invariance ofMaxwell’s equations; Transmission lines and wave guides; Dynamics of charged particles instatic and uniform electromagnetic fields; Radiation from moving charges, dipoles and retardedpotentials.

Quantum Mechanics
Wave-particle duality; Wave functions in coordinate and momentum representations;
Commutators and Heisenberg's uncertainty principle; Matrix representation; Dirac’s bra and
ket notation; Schroedinger equation (time-dependent and time-independent); Eigenvalue
problems such as particle-in-a-box, harmonic oscillator, etc.; Tunneling through a barrier;
Motion in a central potential; Orbital angular momentum, Angular momentum algebra, spin;
Addition of angular momenta; Hydrogen atom, spin-orbit coupling, fine structure; Time-independent perturbation theory and applications; Variational method; WKB approximation;
Time dependent perturbation theory and Fermi's Golden Rule; Selection rules; Semi-classical
theory of radiation; Elementary theory of scattering, phase shifts, partial waves, Born
approximation; Identical particles, Pauli's exclusion principle, spin-statistics connection;
Relativistic quantum mechanics: Klein Gordon and Dirac equations.

KIIT Ph.D Entrance Exam Syllabus for Physics

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#3
April 17th, 2018, 09:54 PM
 Unregistered Guest Posts: n/a

Can u please provide syllabus for biotechnology? ?
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