1To study Resonant Modes of Oscillation, Period of Transfer of Oscillation energy between Coupled Pendula.
2To study Resonance curves for an oscillator: amplitude Vs. frequency, Resonant frequency, Period of a pendulum, Effect of magnetic damping on shape of resonance curve and Phase difference between oscillator and driver at low, resonant and high frequencies.
3To study Reflection, Refraction and determine index of refraction.
4To study Speed of waves in a string, Speed of sound in air, Resonance in strings and air columns and Harmonics.
5To investigate standing waves, to pull string to adjust number of segment and to vary frequency of vibration.
6To study Speed of Wave Propagation, Superposition of Waves, Effects of Varying Water Depth.
7To determine the Speed of Light in Air and Recreate Foucault’s Historical Experiment.
8To determine the wavelength and velocity of ultrasonic waves in liquid by studying the diffraction of light through an ultrasonic grating.
9To study resonance with difference frequencies in closed tube, the spatial interference pattern and plotting of output mixed sound waves with a sensor.
10To study Malus’ Law of Polarization and plotting of waves with sensors.
11To measure a direct voltage, an alternating voltage and the frequency of a sinusoidal voltage using a CRO.
12To measure the frequency of an AC signal and the phase difference between the two AC voltages using a CRO.
13To study the Fourier optics filtering and physical principle of optical image addition and subtraction using a diffracting grating.
14To study how frequency depends on String Tension, string length and string linear density.
15To determine the frequency of the AC mains using a sonometer.