light is made up waves. Different energy of waves are called wavelengths. With blue having the most energy and red having the least.
You can see different colors because your eye ability to distinguish between different wavelengths. Our eyes can see 3 colors red, green and blue. When a light high energy Weight length "blue" is focused into the eye it will have enough energy to excite a nerve in your eye retina to cause the cells to fire and your brain will interpret this as a blue light. When a lower energy wave length like green is focused on the blue receptor there is not enough energy to cause it to fire. however surrounding cells better tuned for green will fire, telling the brain the light is green. the color sensitive cells are called cone cell. We also have a different type of cell called rods and that just detect light levels ( this is why in low light you cannot see colors as a cone cell are not as sensitive as rod cells).
With information about its wavelength "color" and information about its intensity "brightness" Your brain can interpreted an object its color.
The range of colors that makes up white light is called the visible light spectrum. This spectrum includes all the colors of the rainbow, from red to violet. Brightness refers to the intensity of light, not to the range of colors present.
VIBGYOR light is visible to the human eye because it falls within the visible spectrum of light. This spectrum ranges from roughly 390 to 700 nanometers in wavelength, with each color of light corresponding to a specific wavelength. When light within this range enters our eyes, the cells in our retinas called cones are able to detect and perceive these different colors.
all of the colors put together..... it is mainly found in space..... red, orange, yellow, green, blue, indigo, violet. when different colurs of the light spectrum combine they turn white instead of turning black the way colours like paint for example turn.
The "color" of anything is determined by the wavelengths of visible light that are reflected off of it's surface. When that reflected light reaches your eye, you see color. The colors you don't see are those that are asborbed by said material. Some materials emit their own light however, in which case, those emitted wavelengths would combine with those that are reflected.
Atoms are typically smaller in size than the wavelength of visible light, which makes them difficult to detect using visible light. Additionally, atoms do not absorb or reflect visible light in a way that allows them to be seen by the human eye. Special techniques such as electron microscopes are often used to visualize atoms.
White light is a combination of all colors of light in the visible spectrum, while other colors of light are specific wavelengths of light.
The range of colors that makes up white light is called the visible light spectrum. This spectrum includes all the colors of the rainbow, from red to violet. Brightness refers to the intensity of light, not to the range of colors present.
when you see all of the colors when they combine it makes black
no different light makes blue odd colors
Light can occur at different frequencies. These frequencies lie on a spectrum, if you want an idea of what the frequencies look like, have a look at a rainbow, with red at the lowest frequency and blue/violet at the highest for visible light. When all of these frequencies are mixed together (like the light created from the "white hot" sun) white light is the result.
VIBGYOR light is visible to the human eye because it falls within the visible spectrum of light. This spectrum ranges from roughly 390 to 700 nanometers in wavelength, with each color of light corresponding to a specific wavelength. When light within this range enters our eyes, the cells in our retinas called cones are able to detect and perceive these different colors.
No, ultraviolet light is not visible to the human eye. It has a shorter wavelength than visible light, which makes it invisible.
The violet spectrum is significant in the study of light and color because it has the shortest wavelength and highest frequency among visible colors. This makes it important for understanding the properties of light and how it interacts with different materials. Additionally, the violet spectrum is crucial in the formation of other colors through the process of color mixing.
Substances, such a cobalt, absorb the color waves of light but refract the blue ones. The same applies to all visible colors regardless of the substance. The visible color is the light that is not absorbed thus refracted and detectable.
You can see people because light reflects off of them and then hits your retina (rods and cones) and a signal is sent to your brain. Different materials absorb different colors (wave lengths) of light, so that makes the different colors.
Many objects do appear black or white when light falls on them. If they are black, it means that the object is absorbing all wavelengths of visible light and not reflecting any. If they are white, it means that they are reflecting all wavelengths of visible light and not absorbing any. The color of an object is due to the wavelengths of light that it reflects.
A prism can separate white light into its component colors, creating a rainbow effect called dispersion. This happens because different colors of light refract at slightly different angles when passing through the prism, causing them to spread out.