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Light energy that is not absorbed by a material is typically reflected, transmitted, or scattered.
When light strikes an opaque material, the light is absorbed or reflected by the material. This can cause the material to heat up if the light is absorbed, or create glare if the light is reflected.
Yes, when light strikes an object, it can either be reflected (bounced off) or absorbed (taken in by the object). The amount of light that is reflected or absorbed depends on the properties of the object, such as its color and material.
Yes, sound can be transmitted, reflected, or absorbed by materials. When sound waves encounter a material, they can pass through it (transmitted), bounce off it (reflected), or be partially or completely dampened (absorbed) depending on the properties of the material. Soundproofing materials are designed to absorb sound waves to reduce noise.
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 energy that is not absorbed by a material is typically reflected, transmitted, or scattered.
When light strikes an opaque material, the light is absorbed or reflected by the material. This can cause the material to heat up if the light is absorbed, or create glare if the light is reflected.
Yes, when light strikes an object, it can either be reflected (bounced off) or absorbed (taken in by the object). The amount of light that is reflected or absorbed depends on the properties of the object, such as its color and material.
It gets absorbed or reflected
Yes, sound can be transmitted, reflected, or absorbed by materials. When sound waves encounter a material, they can pass through it (transmitted), bounce off it (reflected), or be partially or completely dampened (absorbed) depending on the properties of the material. Soundproofing materials are designed to absorb sound waves to reduce noise.
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.
When absorbed light interacts with different materials, it can be reflected, transmitted, or absorbed by the material. The specific outcome depends on the properties of the material, such as its color, texture, and composition.
When light strikes a transparent surface, it can be transmitted through the material, absorbed by the material, or reflected off the surface. The amount of light that is transmitted, absorbed, or reflected depends on the properties of the material and the angle at which the light strikes the surface.
When light enters a glass block, some of it is reflected back, some is transmitted through the glass, and some is absorbed by the glass and converted into heat. The amount that is reflected, transmitted, and absorbed depends on the angle of incidence and the properties of the glass block.
When light hits an opaque material, it is either absorbed or reflected. Opaque materials do not allow light to pass through, so they absorb the light energy and convert it into heat. Some of the light may also be reflected off the surface of the material.
reflected, transmitted, or absorbed depending on the properties of the object's surface and material.
Gamma radiation can be both absorbed and reflected. The amount that is absorbed or reflected depends on the material and thickness it interacts with. Some materials like lead are good for absorbing gamma radiation, while others like concrete are better for reflecting it.