glasses of water
Made?
A modern material is a material is a material made on the last 50 years.
It is with a rubber or polyester thin film material,leather ball.
When white light(composite light) consisting of various colors is passed through a prism, light of different colors will be deviated through different angles. Since the deviation is related to refractive index and refractive index to the color of light the deviation produced for different colors are different for same prism.That is the refractive indices are different for the various colors and this difference in the refractive indices is responsible for dispersion.
He discovers what is known as the rainbow, by using a prism to show that light is made up of all of those colors.
The volume is 3cm * 2cm * 5cm = 30 cm3. The density will depend on the mass of the prism which will depend on the material that the prism is made from.
Yes, no material allows 100% transmission of light. In fact, the resistance of the passage of light is what allows a prism to refract. A prism made of a theoretical 100% light trasmitter would not function as a prism regardless of its shape.
A prism- can be made of glass or plastic
The answer depends on the quality of the material used for the prism.
That would depend on the density of the material the prism is made of. You also will have different results since the base is a rectangle and there's no relationships between the sides.
Made?
a prism
A prism. It can be made of glass, crystal, or other hard clear material.
It depends on what type of prism you're using (e.g. triangular prism).
Newton's prism was made of glass.
The answer depends on the ratio of what characteristic you want. Ratios of interest are between any two linear measures, or all three; the surface area to volume, mass to volume (density), speed of light in air (vacuum) and the prism material (refractive index); and so on. In the first two examples above, the shape of the prism is relevant, in the second two, the material that it is made of will matter.
Refraction.In addition to refraction, a common prism demonstrates that different wavelengths of light travel at different velocities in the prism material. Hence the spreading out of the various colours.