KSCISOP Klinger Scientific Size of Particle Experiment Complete Set Up

Klinger Scientific Size of Particle Experiment Complete Set Up he characteristics of light such as interference, diffraction can be understood when light is studied as a wave phenomenon. Interaction of waves with matter results in either transmission, reflection, absorption and diffraction of the wave. When the size of matter is comparable to the wavelength of wave that it interacts with, a phenomenon called diffraction occurs. Diffraction of light due to particles is a function of the size of the particle and the wavelength of the light incident. It is possible to measure the size of a particle by studying the diffraction patterns created by it. OBJECTIVES To measure the width/thickness of the given samples by analyzing the diffraction pattern. KEY FEATURES Easy Adjustable Laser: The multiple degree of freedom on the laser mount helps in effortless movement of the laser source. This helps in aligning the laser source with sample quite easily. Laser Range Finder: The addition of a l