black object completely absorbe the incident energy and does not reflect any light because if energy incident on any other thing it reflect some portion in atmosphere that is why we can see the thing that it is in which colour but if energy absorbes by any object here total absorption no reflection
Since blue objects absorb the green light, the objects appear black.
A black hole. However, it does not have a surface but an event horizon.
The color of something actually depends on the wavelengths of colors reflected from the objects chosen. For instance, a red apple is red because of the red wavelengths in white light get reflected, while others are absorbed. Actually, if a red apple were to be illuminated by light, the apple would have a black appearance. Now back to the point, when light is absorbed by a black object, the energy of the object carried by When light is absorbed by a black object, the energy carried by the light doesn't just disappear like that. Instead, it raises energy of the object causing the absorption. The object carries the absorbed energy by emitting much longer wavelength, with lower energy infrared (heat). This process of light into heat is like a key to understanding the process. Light doesn't just disappear when struck onto a black object. It's actually transformed into some other species of radiation that could be either radiated from or retained into the black object.
The mass of a black hole can be measured by observing the orbits of objects around it, such as stars or gas clouds. By studying the gravitational effects of the black hole on these objects, astronomers can calculate its mass. Another method is to measure the distortion of light from objects behind the black hole, known as gravitational lensing, which can provide information about the black hole's mass.
No, once an object crosses the event horizon of a black hole, it is no longer visible from outside the black hole. The gravitational pull is so intense that not even light can escape, making it impossible to observe objects beyond the event horizon.
Black objects absorb most of the visible light that strikes them, reflecting very little light back to our eyes. In white light, which contains all the colors of the spectrum, black objects absorb all colors equally, appearing black to our eyes.
Black objects absorb all wavelengths of light, while white objects reflect all wavelengths of light. This means that black objects absorb more light and convert it into heat, making them hotter than white objects which reflect more light and absorb less heat.
The "color" black is not really a color. Black is the absence of light. Black objects have pigments that absorb all light and, therefore, none is reflected for us to be able to see.
Solar energy is not attracted to black objects. Black objects just absorb light rather than reflect it.
Black objects absorb more light energy compared to lighter colored objects, which leads to an increase in their temperature as they absorb more energy. This is because black objects absorb a wider range of light wavelengths across the spectrum, converting more light into heat energy.
For a black objects or black body, the light is absorb to the black body not going through. The absorbed light is transformed to thermal energy inside the object.
Black objects do not reflect light because they absorb most of the light that strikes them, rather than reflecting it back. The absorption of light by black objects is a result of their molecular structure, which allows them to retain more light energy than they release. This lack of reflection gives black objects their characteristic dark appearance.
black paint.
Objects that absorb all light appear black because they do not reflect any light back into our eyes, making them appear void of color.
Black objects absorb more light and heat compared to white objects because they absorb a wider spectrum of light. White objects reflect most of the light that hits them, which results in less absorption and slower heating.
A black hole's gravitational pull is extremely strong, causing nearby objects and light to be pulled towards it with great force. This can result in objects being stretched and torn apart, and light being bent or absorbed by the black hole.
Black objects absorb all colors of light, reflecting very little back to our eyes. This absorption of light across the visible spectrum is what creates the perception of black color.