When light rays hit a specimen, three things can happen: transmission (light passes through), absorption (light is taken in by the specimen), or reflection (light bounces off the specimen's surface). The way the specimen interacts with light can provide valuable information for scientific analysis or imaging.
When light rays hit the specimen in a microscope, they can be absorbed, transmitted through, or reflected by the specimen. The interaction between the light and the specimen allows for imaging and visualization of the specimen's details.
When parallel rays of light hit a smooth surface, they are reflected at the same angle they hit the surface. This is described by the law of reflection. The reflected rays remain parallel to each other.
When light rays hit an opaque object, they are absorbed or reflected. The object appears opaque because it reflects most of the light that hits it and absorbs very little. This is why we cannot see through opaque objects.
When parallel rays of light hit a rough or bumpy surface, they get scattered in different directions due to reflection. This phenomenon is known as diffuse reflection. The surface roughness causes the light to reflect unevenly, leading to the diffusion of light in various directions.
Light rays reflect when they hit a concave mirror. The parallel rays of light converge at the focal point after reflection.
When light rays hit the specimen in a microscope, they can be absorbed, transmitted through, or reflected by the specimen. The interaction between the light and the specimen allows for imaging and visualization of the specimen's details.
They are reflected at the angle of incidence.
They are reflected or absorbed. nope.. they are Refracted
When parallel rays of light hit a smooth surface, they are reflected at the same angle they hit the surface. This is described by the law of reflection. The reflected rays remain parallel to each other.
When light rays hit an opaque object, they are absorbed or reflected. The object appears opaque because it reflects most of the light that hits it and absorbs very little. This is why we cannot see through opaque objects.
When parallel rays of light hit a rough or bumpy surface, they get scattered in different directions due to reflection. This phenomenon is known as diffuse reflection. The surface roughness causes the light to reflect unevenly, leading to the diffusion of light in various directions.
Light rays reflect when they hit a concave mirror. The parallel rays of light converge at the focal point after reflection.
The electrons in the lead become excited and emit light of particular frequencies unique to lead.
A shadow is formed.
tang ina ng nanay mo by alejandro nicolas IV-Quezon
When light rays hit the surface of a flat mirror, they are reflected back at the same angle as they approached the mirror. This is known as the law of reflection. The image seen in the mirror is a virtual image that appears to be the same distance behind the mirror as the object is in front of it.
It happens so to protect our eyes from the bright light.When the harmful light rays hit the retina,the brain forces us to shut our eyes by making us sneeze.