overview
About Physics Department
The Department of Physics was established in 1990. The department has two well-equipped laboratories and a dark room, providing students with hands-on experimental exposure. The curriculum covers classic physics topics alongside an introduction to state-of-the-art experimental techniques under the add-on course scheme.
The department is committed to equipping students with strong analytical capabilities and problem-solving tools to face the challenges of a demanding economy — through competitive exam training, entrepreneurship guidance, and research orientation.
Head of department
Mrs. Manisha Ghogare
M.Sc.
department shedule
Mon – Tue
10:00 AM – 5:00 PM
Wed- Thu
10:00 AM – 5:00 PM
Friday
10:00 AM – 5:00 PM
2nd and 4th Sat
Open
Sunday
Closed
What We Offer
Programmes Offered
Curriculum
Teaching Syllabus
Programme Outcomes
Course / Outcome
Outcome Statements
PHY-101 — Mechanics, Properties of Matter & Sound (Sem I)
Gravitation, compound pendulum, elasticity, viscosity, Bernoulli’s theorem, surface tension, Piezo-electric and Magnetostriction effects, ultrasonics, acoustics, and Sabine’s law.
PHY-105 — Electricity & Magnetism (Sem II)
Vector algebra, Gauss’s and Stoke’s theorems, electric field, flux, and dipole, dielectrics, magnetism, Biot-Savart Law,Ampere’s Law, L-R and C-R circuits.
PHY-103 & 106 — Practical (Sem I & II)
Experiments on moment of inertia, viscosity, surface tension, thermal conductivity, CRO, spectrometer calibration, dispersive power of prism, and I-H curves.
PHY-202 — Modern & Nuclear Physics (Sem III)
Photoelectric effect, X-ray methods (Laue, Bragg), nuclear composition, radioactive decay, nuclear fission and fusion, nuclear reactors, particle detectors and accelerators.
PHY-205 — General Electronics (Sem IV)
Semiconductor devices (diode, transistor, FET, MOSFET), amplifier circuits, OPAMP, oscillators, multivibrators, AM, FM, PM modulation and demodulation.
PHY-203 & 207 — Practical (Sem III)
Energy band gap, solar cell I-V characteristics, full wave rectifier, viscosity, photocell, earth inductor, potentiometer, sonometer, polarimeter.
PHY-204 & 208 — Practical (Sem IV)
Thermal conductivity, Newton’s rings, transistor CE/CB characteristics, CE amplifier, Hartley oscillator, Wein bridge oscillator, OPAMP, JFET, Owen’s bridge.
PHY-302 — Electrodynamics (Sem V)
Gauss’s law, electric displacement vector, Faraday’s laws, Maxwell’s equations, EM wave propagation, Poynting vector, polarisation, reflection and transmission at dielectric boundaries.
PHY-305 — Atomic, Molecular Physics & LASERs (Sem V)
Thomson, Rutherford, and Bohr atomic models, hydrogen spectra, Zeeman Effect, molecular and Raman spectra, LASER principles, types, pumping schemes, and applications.
PHY-307 & 303 — Practical (Sem V & VI)
Rydberg constant, Debye temperature, dielectric constant, semiconductor resistance, focal length using laser, diffraction grating, Millikan’s oil drop, optical fibre R.I., iodine absorption spectra.
PHY-304 & 308 — Practical (Sem V & VI)
Laser divergence and wire diameter, optical fibre interference, He-Ne laser wavelength, e/m by Thomson method, surface tension by ripples, Hartmann’s formula, Zener diode power supply, bridge rectifier.
Upon completion of the B.Sc. Physics programme, graduates will be able to:
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