The answer will depend on the shape of the prism
A diffraction grating is a simple device that uses diffraction to produce a better spectrum than a prism. Diffraction gratings consist of closely spaced parallel slits or grooves that cause light to diffract at different angles, resulting in a more detailed and accurate spectrum compared to a prism.
A diffraction grating does.
A prism and a diffraction grating are two objects that can break light into different colors by refracting and dispersing the light, causing it to separate into its component wavelengths.
The answer will depend on the shape of the prism.The answer will depend on the shape of the prism.The answer will depend on the shape of the prism.The answer will depend on the shape of the prism.
You can split white light using a prism or a diffraction grating.
A prism, a diffraction grating, a water droplet, etc.
You can break white light without a prism by using a device called a diffraction grating. A diffraction grating has thinly etched lines; you can see this effect by noticing the rainbows you see from the bottom of a DVD.
A prism or a diffraction grating
The width of the slit should be on the order of the wavelength of the light being used for diffraction in order to observe the diffraction pattern clearly. This is known as the single-slit diffraction condition. The size of the slit also affects the angular spread of the diffraction pattern.
bcoz in triangular prism, sides are not parallel so rays will deflect but in rectangular prism sides are parallel so rays won't deflect instead they will pass straight.
Diffraction is the bending of waves around obstacles and the spreading of waves as they pass through apertures. The amount of diffraction depends on the wavelength of the wave: shorter wavelengths produce less diffraction, while longer wavelengths produce more pronounced diffraction effects.
Certainly! Here are a few viva voce questions on laser diffraction: What is the principle behind laser diffraction and how does it differ from traditional diffraction methods? Can you explain the significance of the diffraction pattern produced by a laser and how it relates to particle size analysis? How do factors such as wavelength and particle size influence the diffraction pattern observed in a laser diffraction experiment?