The light gets reflected from the object and into your eyes so you can see
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 black object, it is absorbed by the object's surface molecules rather than being reflected. This absorption of light energy causes the object to appear black to our eyes.
When white light hits a black object, all the colors in the white light spectrum are absorbed by the black object. This absorption of light energy causes the object to heat up, which is why black objects are often warmer than lighter-colored objects when exposed to sunlight.
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 that it cannot pass through, it undergoes reflection or absorption. Reflection occurs when light bounces off the object's surface, while absorption results in the light being absorbed by the object, converting energy into heat. The specific outcome depends on the properties of the object and the light itself.
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 black object, it is absorbed by the object's surface molecules rather than being reflected. This absorption of light energy causes the object to appear black to our eyes.
When white light hits a black object, all the colors in the white light spectrum are absorbed by the black object. This absorption of light energy causes the object to heat up, which is why black objects are often warmer than lighter-colored objects when exposed to sunlight.
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 that it cannot pass through, it undergoes reflection or absorption. Reflection occurs when light bounces off the object's surface, while absorption results in the light being absorbed by the object, converting energy into heat. The specific outcome depends on the properties of the object and the light itself.
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.
When light shines on a black object, it absorbs all the colors in the visible spectrum and reflects very little light, resulting in the perception of black. This absorption of light energy is what gives black objects their dark appearance.
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 hits a dark, heavy object, the object absorbs more light energy due to its dark color, which raises its temperature. The heavy nature of the object allows it to retain the absorbed heat for a longer time compared to lighter objects. This can result in the object becoming warmer compared to lighter-colored objects exposed to the same amount of light.
When sunlight hits an object, the object absorbs some of that light energy and converts it into heat energy through a process called thermal conduction. The absorbed light energy causes the atoms in the object to vibrate more, increasing the object's temperature.
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.