1. Maxwell’s equations:
derivation, physical significance, equations in different system of units and
media. Proof of transverse nature of electromagnetic waves and that they travel
with speed ‘c’, applications.(A)
2. Cyclotron, Synchrocyclotron,
Betatron and other particle accelerators used around the world, advancements in
particle accelerator technology, Briefing of Large Hadron Collider(Geneva,
Swiss), future prospective and applications. (A)
3. Resistors, condenses, inductors
and all possible combinations(e.g. R only, C only, L only, RC, RL, LC , RLC
etc), charging and discharging curves, resonance, low pass and high pass RC
circuits, phasors, applications. (A)
4. Four types of fundamental
forces in nature, their origin, comparison. History of the ultimate goal of
Physics: Unification, unification achieved, theory of everything, future
prospective. (A)
5. ‘DEL’ operator; its operations
on scalar and vector functions, their physical interpretations. Write atleast
five to six equation having ‘DEL’ operator from Physics with physical
interpretations. Applications of vector calculus of ‘DEL’ operator. (A)
6. Crossed fields; HALL EFFECT,
applications. (A)
7. Electrostatic fields in matter
(dielectrics). Behavior and response of a dielectric to external electrostatic
field and micro and macroscopic levels. (A)
8. AC motor and generator with
complete technical analysis and calculations of efficiency, different types pf
technological advancements. (A)
9. Hydrogen fuel cell as way out
for energy crises, basic technology used and latest advances, applications. (A)
10.
Analog electronics: Transistor amplification and different modes of
biasing, voltage and current gains, hybrid parameters, concept of load line,
applications. (A)
11.
Give complete physical picture to evaluate the energy expression for a
capacitor, inductor, simple harmonic oscillator, electric and magnetic field
energy densities, rotating body, uniformly moving body. Tabulate it and generalize
your result.(A)
12.
Digital electronics; De-Morgan’s theorem, ALU, flip-flop.(A)
13.
International Space Station, contribution of various countries around
the world, experiments being performed at ISS and their impact on humanity. (A)
14.
Brief description of the experiments related to electricity and
magnetism(e.g. Faraday’s experiments, Hertz’s experiments etc) and their impact
on our understanding of physical world.(A)
15.
Do you ever wonder how pirates sailed the seven seas? The two most
important things a pirate could have were a compass and an accurate watch.
Ancient navigators did not know about compasses, so how did they know where
they were going?(G)
16.
As a person from physics background, if you are made the MD of a space
tourism company and you are supposed to organize a space visit, how will you do
that for ten persons? How would you prepare them for the journey? Where would
they be made to stay and how? (G)
17.
Recently the big –bang experiment was in news. What is it all about?
What are the features of the big-bang theory? Also emphasize on the current
status of the experiment? (G)
18.
India is, now a days making great progress in the field of
communication satellites. What is India’s achievement till date? As a person
from technology side, what would you like to add to the current list or amend
any of those programmes? (G)
19.
If you are sponsored by the Indian government for an invention of your
choice (from physics/technology field) but in favour of country’s interests,
what would be your choice? How will you design it and give the ways in which it
is going to serve the Indian science community? (G)
20.
Another heavenly body apart from earth has been detected with liquids
at its surface. What are the possibilities of the existence of life there? (G)
21.
Lorentz’s transformations, its origin, velocity, momentum and energy
transformation, length and time effects, fields due to moving charge.(M)
22.
Black holes, formation and other possible ways of dying star e.g.
neutron star or supernova, brief about work of Stephen Hawkins. (M)
23.
Nuclear reactors, challenges, advancements and present status of world
nuclear power generation and future prospective. (M)
24.
Experiments supporting wave particle duality. Introduction to the laws
of black body radiation and how it leads to failure of classical physics and
birth of quantum mechanics. (M)
25.
Laplace transformations and their application. (M)
26.
Smart materials, types, industrial and daily application. (AL)
27.
Amorphous semiconductors, thin film preparations and applications. (AL)
28.
Laser, action and Einstein’s theory of lasers, types, applications in
industry and medical field. (AL)
29.
SOFC, theory and working and its industrial applications. (AL)
30.
XRD and its applications and its industrial as well in research. (AL)
31.
Construction, working and uses of Scanning Electron Microscope and
Tunneling Electron Microscope. Advantages of these microscope over conventional
microscopes.(P)
32.
Preparation, properties and utilization of thin films. (P)
33.
High temperature superconductors, BCS theory for the existence of
superconductivity, their applications, properties of yttrium barium copper
oxide(YBCO) and bismuth strontium calcium copper oxide(BSCCO). (P)
34.
Cosmic rays and elementary particles. Quarks, their types and
properties, evidence of existence of quarks, formation of baryons and mesons
with quarks. EGS (Electron Gamma Shower). Existence of neutrino and
antineutrino. (P)
35.
Magnetic storage- history, technical detail, current usage ant future
scope. Different magnetic storage device- magnetic tape, zip drive, magnetic
disks etc. (P)
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