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**