A prism
The formula for calculating the angle of deviation in a prism is: Angle of Deviation (Refractive index of the prism - 1) x Prism angle.
Two times. One when the light beam crosses the air-prism interface and enters the prism and a second time when the beam crosses the prism-air interface on its way out of the prism.
The prism angle affects the amount of refraction of light passing through a prism. A larger prism angle results in greater refraction, causing the light to bend more as it passes through the prism. Conversely, a smaller prism angle leads to less refraction and a smaller bending of the light.
The second prism will refract the light further, altering its direction based on the prism's orientation and material properties. This refraction will depend on the angle at which the light hits the second prism and the refractive index of the prism material.
That depends on the shape of the base. A prism can have any sort of polygon for its base.
Refraction!
a prism, and the telescope
You will have to work the surface area of one of the ends and then multiply that with the length.
work it out
I'll concentrate on the region 'below', and as soon as the prism appears, I'll get to work on an answer.
Toblerone candy will work.
Work out the area of one end, then multiply by the length.
A person's Hipstreet Prism MP3 player may not work in their car if they do not have the compatible connections. A frayed wire may also prevent the device from working correctly.
Sketch a net of the prism and and work out the area of each individual piece and then add them together
There is no 6-edged prism. The simplest prism, a triangular prism, has 9 edges.There is no 6-edged prism. The simplest prism, a triangular prism, has 9 edges.There is no 6-edged prism. The simplest prism, a triangular prism, has 9 edges.There is no 6-edged prism. The simplest prism, a triangular prism, has 9 edges.
Its volume is its cross-section area times its length.