The light bends and it is separated in the different colors of the rainbow.
When light is transmitted, it can be absorbed by the material it passes through, scattered in different directions, or reflected off the surface of the material.
Yes. Imagine your window. Light passes through does it not.
It is called polarizing chemical change
When light hits an object, it can be absorbed (taken in by the object), reflected (bounced off the object), transmitted (pass through the object), or refracted (bent as it passes through the object).
Reflection: Light bounces off the surface of the object. Absorption: Light energy is absorbed by the object. Transmission: Light passes through the object without being absorbed or reflected. Refraction: Light changes direction as it passes through the object, due to a change in the medium's optical density.
light passes in straight line
When light hits a material, it can be absorbed, reflected, or transmitted through the material. Absorption results in the light energy being converted to other forms of energy, such as heat. Reflection involves the light bouncing off the surface of the material. Transmission is when the light passes through the material.
There is a piece of filament in every light bulb, which has so much friction that when the electric current passes through it, heat energy is produced. This heat energy is then converted to light energy.
Nothing in our everyday existence suggests that an electric field has any influence on light shining through it.
When light strikes a material, it can be absorbed, reflected, or transmitted through the material. Absorption occurs when the material takes in the light energy, reflection happens when the light bounces off the material's surface, and transmission is when the light passes through the material.
Light usually passes through a transparent object. Similarly, light passes through the translucent objects but people cannot see through it.
When electricity passes through neon gas, it excites the neon atoms, causing them to emit photons of light. This produces the characteristic bright glow that neon is known for.