A parallel beam of light coming from an infinite source when passed through a convex lens such that the refractive index of medium is less than the refractive index of lens the light will suffer deviation and the rays will converge at a point called focus of the lens on the opposite side where the rays have been coming. The image will be highly diminished as all the rays converge at a point.
In a parallel circuit the voltage across each component is the same.
Nothing. The focal length is defined as point where all of the light converges after passing through the lens ( for a convex mirror)and only depends on the mirror's curvature. So changing the incident light ray will cause no change in the focal length of the mirror.
If the object's falling energy increases (this would happen if the object is already falling downward, and air resistance is small), then the kinetic energy will increase.
describe what happens to parallel light rays when they hit a concave mirror
velocity can happen
The rays are diffracted toward the center of the lens. This is the principal used in reading and magnifying glasses.
It is a lens that possesses at least one surface that curves outwards. It causes light to deviate inward, bringing the rays of light to a focus. Its thicker at its center than at its edges, and is used to correct far-sightedness. A convex lens is a lens that bulges outward on both sides. I have another comment. It does do all that stuff and who needed them to build a telescope? It's Galileo Galilie. Ohyah!
Its falling and falling every years.
Falling Stars happened in 2007.
Two spheres cannot be parallel - only lines can be parallel.
There will be no change, because it is a parallel circuit.
No. May happen when the temp is falling.
In a parallel circuit the voltage across each component is the same.
5 A
They would 'intersect'. ('cross', have one point in common)
Yes, it can happen.
the climax comes first then falling action followed by the resolution