JEST Syllabus 2019 Physics, Chemistry, Maths Exam Pattern PDF Download
JEST Syllabus
JEST Syllabus 2019: Joint Entrance Screening Test is scheduled on 17-02-2019!!
To prepare for the JEST 2019 applicants must download the PDF of JEST
Syllabus by hitting the direct link stated below.
From here candidates will also get the
knowledge about JEST Syllabus 2019 for Physics, Chemistry, Maths along with the
Exam pattern. It is conducted to provide admission to eligible students in Ph.D
Programs in Physics/Theoretical Computer Science/Neuroscience.
JEST Syllabus 2019 for Physics,
Chemistry, Maths:
Science & Engineering Research
Board
|
|
Courses offered
|
Ph.D Programs in
Physics/Theoretical Computer Science/Neuroscience
|
Last Date to
Submit Application Form
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15-12-2018
|
JEST Exam Date
|
17-02-2019
|
Joint Entrance Screening Test
Syllabus:
Indian Institute of Science Education and
Research conducts this entrance exam every year for providing admission to PhD
/Integrated PhD Course. Appearing applicants must check JEST Exam Syllabus
here.
Selection of candidates will be done on basis of their performance in Entrance Exam. Candidates may get the JEST Syllabus 2019 from the below section of this page which is created by the team members of www.privatejobshub.in. Have a look below!!!
JEST Syllabus
JEST is a programme for Ph.D in
Physics and Theoretical computer science/ Neurosciences. The exam will be
conducted on syllabus of post graduation in these fields.
JEST Theoretical Computer Science Syllabus:
- Introduction to Algorithms
- Compilers: Principles, Techniques and Tools
- Elements of Discrete Mathematics
- Discrete Mathematical Structures with Applications to Computer Science,
- An Introduction to Data Structures with Applications
- Fundamentals of Computer Algorithms
- Fundamentals of Data Structures
- The Design and Analysis of Computer Algorithms
JEST Physics Syllabus
Mathematical
Methods
|
Vector algebra
and vector calculus; linear vector spaces, linear operators, matrices and
eigenvalue problem; Sturm–Liouville theory, classical orthogonal polynomials;
linear ordinary differential equations, exact and series methods of solution;
linear partial differential equations, solution by separation of variables;
complex variables, analytic functions, Taylor and Laurent expansions, contour
integration; Fourier and Laplace transforms.
|
Classical
Mechanics
|
Newton’s laws,
conservation of energy and momentum, collisions; generalized coordinates,
principle of least action, Lagrangian and Hamiltonian formulations of
mechanics; symmetry and conservation laws; central force problem, Kepler
problem; rigid body motion; small oscillations and normal modes; special
relativity in classical mechanics.
|
Electromagnetic
Theory
|
Laws of
electrostatics and magnetostatics, methods of solving boundary value
problems, multipole expansion; fields in conducting, dielectric, diamagnetic
and paramagnetic materials; Faraday’s law and time varying fields;
conservation of charge, displacement current; Maxwell’s equations; energy and
momentum of electromagnetic fields, Poynting theorem; propagation of plane
electromagnetic waves, reflection and refraction of plane electromagnetic
waves, electromagnetic waves in dispersive and conducting media; scalar and
vector potentials, Coulomb and Lorentz gauge, wave equation in terms of
electromagnetic potentials; radiation from moving charges, retarded and
advanced potentials, Lienard-Wiechert potentials, multipole radiation,
Larmor’s formula.
|
Quantum
Mechanics
|
The
uncertainty principle; conceptual basis of quantum mechanics; Schrodinger
equation, problems in one, two and three dimensions, bound states and
tunneling, particle in a box, harmonic oscillator, hydrogen atom; matrix
formulation of quantum theory, unitary transformations and Hermitean
operators and their properties; orbital and spin angular momenta, addition of
angular momenta; time independentand time dependent perturbation theory,
Fermi golden rule; elementary scattering theory.
|
Thermodynamics
and Statistical Physics
|
Laws of
thermodynamics; work and heat; thermodynamic potentials, Maxwell’s relations;
statistical ensembles; partition function; classical ideal gas, harmonic
oscillators; classical and quantum statistics; Fermi and Bose gases; black
body radiation; first and second order phase transitions.
|
Solid State
Physics
|
Simple crystal
structures and X-ray diffraction; lattice vibrations and thermal properties
of solids; free electron theory; band theory of solids; metals,
semiconductors and insulators; basic electrical, optical and magnetic
properties of solids; elements of superconductivity.
|
Electronics
|
Diodes,
rectifier circuits, junctions, transistors and field effect devices; device
characteristics, frequency dependence and applications like active filters
and oscillator circuits; solar cells, photo detectors, and LEDs; operational
amplifiers and their applications; Boolean algebra, digital techniques and
applications: registers, counters, comparators and similar circuits; A/D and
D/A converters; microprocessor and microcontroller basics.
|
Nuclear and
Particle Physics
|
Structure of
the nucleus; binding energy, nuclear fusion and fission; radioactive decay,
barrier penetration by alpha particles; classification of elementary
particles and fundamental interactions, leptons and hadrons, elementary ideas
of quark model; conservation laws in particle reactions.
|
Atomic and
Optical Physics
|
Interference,
diffraction and polarization of light; photoelectric effect; spectra of
single and multiple electron atoms; Zeeman and Stark effects; electric dipole
transition and selection rules; hyperfine structure; spontaneous and
stimulated emission.
|
Experimental
data and error analysis
|
Probability
theory; Gaussian and Poisson distributions; error analysis; propagation of
errors; significant figures; least square fitting.
|
Exam Pattern Of JEST
JEST is a programme for Ph.D in Physics and Theoretical
computer science/ Neurosciences. The exam will be conducted on syllabus of post
graduation in these fields.
- The exam will be conducted in English.
- Total 180 minutes will be time duration of exam.
- The exam question paper will contain objective type with multiple choices.
- JEST total marks will be 100.
Check Here: JEST Question Papers
Physics paper will consists of 2 sections, first section has 25 questions each of 1 mark and second section has 25 questions of 3 marks each, which is structure in table as follows:
Physics paper will consists of 2 sections, first section has 25 questions each of 1 mark and second section has 25 questions of 3 marks each, which is structure in table as follows:
Levels
|
No. of question | Time |
1st level
|
25 questions Each carries one mark
|
3 hrs
|
2nd level
|
2nd level consists of 25 questions. Each carries three marks
|
Approximately 40% questions will be from B.Sc. level and 60%
will be from M.Sc. level.
JEST Exam:
- JEST (Joint Entrance Screening Test) is the national level examination to provide admission in Ph.D. and integrated Ph.D. programs in Physics, Theoretical Computer Science, Neuroscience and Computational Biology.
- There are many entrance exams through which a candidate can pursue the Ph.D degree. But most of the candidates prefer to give JAM and JEST Exam.
Final Words:
Candidates may get the JEST Syllabus 2019
through this page and prepare accordingly. If you face any query regarding
syllabus and exam pattern then you are free to write your comment in the below
stated comment box, we will solve your query as soon as possible.
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