They bounce off at the same angle as they went in at.
The bouncing of light rays is called reflection. When light rays strike a surface and return back in the same direction, it is known as reflection.
Most of the light rays that strike a convex lens converge, or come together, at a focal point. This is due to the lens shape and the way it refracts light.
Light rays that strike a mirror are reflected according to the law of reflection, where the angle of incidence is equal to the angle of reflection. This is what allows us to see our reflection in a mirror.
This is the definition of the reflection of a light ray. The other term related to light rays is refraction, which is the bending of a light ray as it passes from one substance into another.
When light rays strike a rough surface, they undergo a process called scattering. This causes the light to reflect in many different directions, leading to a diffused reflection. The roughness of the surface disrupts the regular reflection pattern seen on smooth surfaces.
That would be heat coming off the ground
In dark field microscopy, the light that reaches the objective only comes from light rays that are scattered by the object being observed. These scattered rays are then captured by the objective lens, illuminating the object against a dark background. The dark field condenser blocks the direct light rays that would otherwise create a bright background, allowing only the scattered light to form the image.
A convex mirror will make light rays more divergent. This is because when light rays strike a convex mirror, they will reflect outwards in different directions, causing them to spread out or diverge.
The Sun's rays strike least directly at the poles.
The slant rays relate to the seasons because the direct rays shine right on a spot and that makes summer. But as the earth tilts the rays are not as strong and not as bright so if its not a direct its slanted which gives it different seasons.!!
When light rays bounce back, they are called reflections. This phenomenon occurs when light waves strike a surface and are redirected in different directions. Reflections are responsible for how we see objects and images around us.
The angle of reflection equals the angle of incidence. In regular reflection, parallel rays strike are reflected from smooth surface at the same angle in diffuse reflection, parallel rays strike and are reflected from a bumpy surface at different angles.