Some of the light gets soaked in (absorbed) by the object, and some of it
bounces off of the object and continues on in another direction.
One factor that typically figures into the choice is the wavelength of the light.
When light hits a red object, the object absorbs all colors of light except for red. Red light is reflected off the object and that is what we perceive as the object's color.
When white light hits an object, the object absorbs certain colors of light and reflects others. The colors that are reflected off the object are what we perceive as the color of the object.
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 that hits an object is taken in by the object, it is called absorption. The object absorbs some wavelengths of light, while others are reflected or transmitted.
When light hits an opaque object, it is absorbed by the object's surface material, leading to a conversion of light energy into thermal energy. The opaque object does not transmit or reflect the light, causing the object to appear solid and non-translucent.
When light hits a red object, the object absorbs all colors of light except for red. Red light is reflected off the object and that is what we perceive as the object's color.
When white light hits an object, the object absorbs certain colors of light and reflects others. The colors that are reflected off the object are what we perceive as the color of the object.
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 that hits an object is taken in by the object, it is called absorption. The object absorbs some wavelengths of light, while others are reflected or transmitted.
When light hits an opaque object, it is absorbed by the object's surface material, leading to a conversion of light energy into thermal energy. The opaque object does not transmit or reflect the light, causing the object to appear solid and non-translucent.
When light hits a green object, the object absorbs all the colors in the light spectrum except for green. Green is reflected off the object, which is why we perceive it as green. This reflection is what gives the object its color.
When light energy hits an object, it can be absorbed, transmitted, reflected, or refracted. The way the light interacts with the object depends on the properties of the material the object is made of and the angle of incidence.
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).
When light hits an opaque object, a shadow is created on the opposite side of the object where the light is blocked. The shadow is a dark area where light cannot pass through due to the solid nature of the opaque object.
The green object absorbs all colors of light except green, which it reflects. When white light hits the green object, the green wavelengths are reflected into our eyes, making the object appear green.
When light hits the surface of an object at an angle, it can be reflected (bounced off), refracted (bent), or absorbed by the object. The amount of light that is reflected or refracted depends on the surface properties of the object, such as smoothness and transparency.
When light hits an object, most of the light is absorbed by the surface of the object. The absorbed light energy is then converted into heat, which can lead to the object warming up. The color of the object determines how much of the light is absorbed and how much is reflected.