Bachelor of Science (B.Sc.) Semester -I
- To determine acceleration due to gravity by Bar pendulum.
- To determine acceleration due to gravity by simple pendulum.
- To determine acceleration due to gravity by Kater’s reversible pendulum.
- To determine acceleration due to gravity by free fall method.
- To determine Moment of Inertia of a body by a torsion pendulum
- To study the theorem of parallel axes of Moment of Inertia
- To study the theorem of perpendicular axes of Moment of Inertia
- To determine the Moment of Inertia of a body using bifilar suspension method
- To determine Moment of inertia of a fly-wheel
- To determine the length of equivalent pendulum (ring pendulum)
- To determine the length of equivalent pendulum (disc pendulum)
- To determine moment of inertia of a compound pendulum by method of coincidences
- To study damping of a bar pendulum (logarithmic decrement)
Bachelor of Science (B.Sc.) Semester -II
- To study the oscillations of a mass in combinations of two springs
- To show that frequency of a Helmholtz resonator varies inversely as the square root.......... the neck correction.
- To determine Young’s modulus of the material of a beam by method of vibration.
- To determine Young’s modulus of the material of a beam by method of bending
- To determine Young’s modulus of the material of a beam by a cantilever
- To determine Young's Modulus of a Wire by Optical Lever Method.
- To determine modulus of rigidity of material of a given wire by Maxwell’s needle
- To determine modulus of rigidity of material of a given wire by using Torsional pendulum.
- To determine coefficient of restitution for inelastic collision.
- To determine the surface tension of mercury by Quinke’s method
- To study oscillations in Bifilar suspension arrangement.
- To determine the surface tension of a liquid by Jaeger’s method.
- To determine the surface tension of a liquid by capillary rise method.
- To determine the coefficient of viscosity of water by Poiseuille’s flow method
- To determine the coefficient of viscosity of glycerin by Stoke’s method
- To determine the coefficient of viscosity of glycerin by rotating cylinder method.
Bachelor of Science (B.Sc.) Semester -III
- To Study Hall effect.
- To study characteristics of P-N Junction rectifier diode.
- To study forward characteristics of Light Emitting Diode.
- To study forward characteristics of Point Contact Diode.
- To study Photodiode Characteristics.
- To study Zener regulated power supply.
- To study Half Wave Rectifier without filter.
- To study Half Wave Rectifier with Capacitor filter.
- To study Full Wave Rectifier without filter.
- To study Full Wave Rectifier with capacitor filter.
- To study Full Wave Bridge Rectifier without filter.
- To study Full Wave Bridge Rectifier with Capacitor filter.
- To study characteristics of Silicon controlled rectifier.
- To study gate firing circuit for SCR.
- To determine the capacitance of a capacitor by leakage method.
- To verify laws of capacitances by repeated charge decay method.
- To determine the capacitance of condenser by de-Sauty’s bridge.
- To study parallel plate capacitor and to find dielectric constant of a given material.
- To determine charge sensitivity of ballistic galvanometer.
- To determine capacitance of capacitor by absolute method using ballistic galvanometer.
- To plot equipotential curves for bar electrode, disc electrode and for ring electrode.
- To determine susceptibility of liquid by Quinck’s method.
- To determine susceptibility of magnetic material by Guys balance method.
- To Measure Magnetic Field along the Axis of a Current-Carrying Circular Coil.
- To draw the magnetic lines of force due to a bar magnet.
- To draw the magnetic lines of force due to a solenoid.
- To study the variation of magnetic field due to Helmholtz coil and single coil carrying current.
- To represent the gradient of scalar field and divergence and curl of vector field using Scilab.
Bachelor of Science (B.Sc.) Semester -IV
- To determine characteristics of transistor in CB mode.
- To determine characteristics of transistor in CE mode.
- To study variation of gain of CE transistor amplifier with load.
- To study gain frequency response of CE transistor Amplifier.
- To determine characteristics of FET.
- To Study transfer and output characteristics of an N- channel MOSFET.
- To study FET as a voltmeter.
- Study of OP AMP as an inverting amplifier.
- Study of OP AMP as non-inverting amplifier.
- Study of OP AMP as an adder.
- Study of OP AMP as subtractor.
- Study of OP AMP as differentiator.
- Study of OP AMP as an integrator.
- To determine the Refractive Index of the Material of a given Prism using Sodium Light.
- To determine the value of Cauchy’s Constants of a material of a prism.
- To determine wavelength of Sodium light using Fresnel Biprism.
- To determine wavelength of Sodium light using Michelson’s Interferometer.
- To determine wavelength of Sodium light using Newton’s Rings.
- To determine wavelength of Sodium light using plane diffraction Grating.
- To determine the Resolving Power of a Plane Diffraction Grating.
- To determine the wavelength of laser light by plane diffraction grating.
- To find the number of lines per centimeter of the given diffraction grating.
- To determine the resolving power of telescope.
- To verify Malu’s law.
- To verify Brewster’s law.
- To determine the refractive indices for ordinary and extra-ordinary rays using double image prism.
- Study of elliptically polarized light using photodetector.
- To determine specific rotation of sugar solution by half shade polarimeter.
- To study the divergence of a LASER beam.
- To determine the focal length of a given convex lens using LASER.