Engineering physics experiment on compound pendualam
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Name of the Experiment
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Compound Pendualam
Sonometer
Torsional Pendulam
Volume Resonator
Newton’s Rings
Diffraction Grating –
Normal Incidence Method
Stewart and Gee’s Experiment
LCR Series Resonance
I/V Characteristics of Zenar Diode
Melde’s Experiment
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COMPOUND PENDUALAM
Aim: Determine the acceleration due to gravity (g) and the radius of gyration of the compound pendulum.
SONOMETER
Aim: Verify the laws of transverse vibrations of a stretched wire by means of a Sonometer.
TORSIONAL PENDULAM
Aim: Determine the rigidity modulus of the material of wire using Torsional pendulum.
VOLUME RESONATOR
Aim: Verify the relation between the volume of an air cavity and the frequency of the rate producing resonance in it.
NEWTON’S RINGS
Aim: Determine the radius of curvature of a given convex lens by forming Newton rings.
DIFFRACTION GRATING - NORMAL INCIDENCE METHOD
Aim: Determine the wavelengths of mercury spectral lines using plane diffraction grating in normal incidence method.
STEWART AND GEE’S EXPERIMENT
Aim: To study the variation of the magnetic field along the axis of a current carrying circular coil by using Stewart and Gee’s apparatus
LCR SERIES RESONANCE
Aim: To study the resonance characteristic of series LCR circuit.
I/V CHARACTERISTICS OF ZENAR DIODE
Aim: To study the characteristics (V-I Graph) of the given Zenar diode.
MELDE’S EXPERIMENT
Aim: Determine the frequency of a vibrator or an electrically maintained tuning fork using Melde’s experiment.