Yes. In general matter can reflect energy or some forms of energy.
When light energy hits matter, the energy is either absorbed, reflected, or transmitted through the material. This interaction can lead to the formation of other forms of energy, such as heat, electrical energy, or chemical energy.
The matter can absorb the radiant energy, causing its temperature to increase. The matter can reflect the radiant energy, bouncing it off without absorbing it. The matter can transmit the radiant energy, allowing it to pass through without being absorbed or reflected.
When light falls on matter, it can be absorbed, reflected, or transmitted. Absorption occurs when the light energy is taken in by the matter and converted into heat. Reflection occurs when the light bounces off the surface of the matter. Transmission occurs when the light passes through the matter without being absorbed or reflected.
When a wave is partially reflected at a boundary, some of the energy is transmitted into the new medium while the remaining energy is reflected back. This results in a division of energy between the reflected and transmitted waves.
When a wave is totally reflected at a boundary, its energy is mostly reflected back in the opposite direction. Some of the energy may be absorbed by the boundary or transmitted through it, but the wave largely maintains its energy as it reflects.
When light energy hits matter, the energy is either absorbed, reflected, or transmitted through the material. This interaction can lead to the formation of other forms of energy, such as heat, electrical energy, or chemical energy.
The matter can absorb the radiant energy, causing its temperature to increase. The matter can reflect the radiant energy, bouncing it off without absorbing it. The matter can transmit the radiant energy, allowing it to pass through without being absorbed or reflected.
When light falls on matter, it can be absorbed, reflected, or transmitted. Absorption occurs when the light energy is taken in by the matter and converted into heat. Reflection occurs when the light bounces off the surface of the matter. Transmission occurs when the light passes through the matter without being absorbed or reflected.
It is called "The solar energy reflected by earth".
When a wave is partially reflected at a boundary, some of the energy is transmitted into the new medium while the remaining energy is reflected back. This results in a division of energy between the reflected and transmitted waves.
When a wave is totally reflected at a boundary, its energy is mostly reflected back in the opposite direction. Some of the energy may be absorbed by the boundary or transmitted through it, but the wave largely maintains its energy as it reflects.
Light can be absorbed by matter, causing electrons to transition to higher energy levels. It can be reflected off a surface without being absorbed. Light can also be transmitted through a material, allowing it to pass through without being absorbed or reflected.
Nowhere. Energy cannot disappear. It is all either reflected or absorbed.
Light has heat and light energy. Example is bulb.
Reflected acoustic energy.
Yes, matter can absorb light when it interacts with it, causing the energy of the light to be converted into internal energy within the material. Matter also reflects light when the surface of the material does not absorb the light's energy but instead bounces it back. The color of the material is determined by which wavelengths of light are absorbed and which are reflected.
The radiant energy reflected back by a surface is called "reflection".