It is both absorbed and reflected. since light is made of: red,orange,yellow,green.blue,indigo,and violet all the colors except whatever color the leaf is, is absorbed and the color of the leaf reflected.
When light hits an object, it can be transmitted (pass through the object), absorbed (taken in by the object), or reflected (bounced off the object). The color of the object we see is the result of the wavelengths of light that are reflected off the object and into our eyes.
When light hits a colored object, the wavelengths of light that are not absorbed by the object are reflected off the object's surface. The color we perceive is determined by the wavelengths of light that are reflected. For example, if an object absorbs all wavelengths except for red, we see the object as red.
When light hits a painted door, some of the light is absorbed by the paint, and some is reflected. The color of the paint determines which wavelengths are absorbed and which are reflected, giving the door its color appearance. If the paint is glossy, more light will be reflected, creating a shinier appearance.
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.
When light hits a glass box, some of it will be transmitted through the glass, some will be reflected off the surface of the glass, and some will be absorbed by the glass. The amount of light that is transmitted, reflected, and absorbed depends on the properties of the glass, such as its thickness and composition.
The tree is illuminated.The same as when it hits other objects. Part of the light will be absorbed, part of it will be reflected.
When light hits an object, it can be transmitted (pass through the object), absorbed (taken in by the object), or reflected (bounced off the object). The color of the object we see is the result of the wavelengths of light that are reflected off the object and into our eyes.
When light hits a colored object, the wavelengths of light that are not absorbed by the object are reflected off the object's surface. The color we perceive is determined by the wavelengths of light that are reflected. For example, if an object absorbs all wavelengths except for red, we see the object as red.
If the light can not pass through a object it is opaque . The light will reflect or be absorbed by the object.
When light hits a painted door, some of the light is absorbed by the paint, and some is reflected. The color of the paint determines which wavelengths are absorbed and which are reflected, giving the door its color appearance. If the paint is glossy, more light will be reflected, creating a shinier appearance.
transmitted, absorbed, reflected, or some combination of these processes
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.
When light hits a glass box, some of it will be transmitted through the glass, some will be reflected off the surface of the glass, and some will be absorbed by the glass. The amount of light that is transmitted, reflected, and absorbed depends on the properties of the glass, such as its thickness and composition.
reflected, transmitted, or absorbed depending on the properties of the object's surface and material.
The sunlight will be absorbed by the surface.If the surface is a mirror,lesser light will be absorbed.More will be reflected. If the surface is black,more light will be absorbed.
Visible light is either absorbed by the ground or reflected back into the atmosphere. Absorbed light is converted into heat energy, while reflected light contributes to what we see as color or brightness of the surface.
Light striking an object can be reflected, refracted, or absorbed. Light passing near an object can be diffracted. These are all the possible interactions.