Sound waves are much longer then light waves.
The wavelength of heat radiation is longer than the wavelength of visible light.
Yes. Colors vary from longer wavelength to shorter, in order
Red
Orange
Yellow
Green
Blue
Indigo
Violet
No, orange are the longer of the two
No they are smaller. A lot smaller.
No, shorter.
Wavelenghts of the X-rays are shorter.
The wavelengths of visible light are longer than ultraviolet wavelengths.
Orange has a longer wavelength than yellow. On the spectrum of visible light red is longest and violet is shortest.
The human eye is sensitive to a range of wavelengths within the electromagnetic spectrum, and different wavelengths correspond to different colors. The visible spectrum spans from shorter wavelengths (associated with violet and blue colors) to longer wavelengths (associated with red and beyond). Here's how changing the wavelength can affect the light you see: Color Perception: Shorter Wavelengths (Blue/Violet): Shorter wavelengths are associated with blue and violet colors. As the wavelength decreases, the light appears more towards the blue end of the spectrum. Medium Wavelengths (Green/Yellow): Medium wavelengths are associated with green and yellow colors. Longer Wavelengths (Orange/Red): Longer wavelengths are associated with orange and red colors. As the wavelength increases, the light appears more towards the red end of the spectrum. Intensity and Brightness: Generally, the perception of brightness is more strongly influenced by intensity rather than wavelength. However, changes in wavelength can affect the overall color appearance, and our eyes may perceive certain colors as more or less intense. Color Mixing: Combining light of different wavelengths can result in color mixing. For example, combining red and blue light can produce magenta, while combining red and green light can produce yellow. Interference and Diffraction: Changes in wavelength can also be associated with optical phenomena such as interference and diffraction. These effects can result in patterns of colored fringes or bands, particularly when light interacts with fine structures or passes through narrow openings. Scattering: Shorter wavelengths of light (blue and violet) tend to scatter more than longer wavelengths (red and orange). This is why the sky appears blue during the day; the shorter blue wavelengths are scattered in all directions by the gases and particles in the Earth's atmosphere. Absorption:
infrared
The wavelengths for UV light are shorter than for visible light, but much longer than for x-rays or gamma rays.
The wavelengths of visible light are longer than ultraviolet wavelengths.
Light energy with wavelengths longer than visible red is infrared light.
have wavelengths that are longer than normal:)
Yes orange is better than green
No. Longer wavelengths travel further. This is true for any media, even air. This is why you see the red light further than the green light.
The answer depends on "compared to what"? UV wavelengths are shorter than x-rays and longer than microwaves.
No, it does not.
Yes.
From the spectrum of the visible light water absorb red, orange, yellow and green radiations. And the result is that we see the blue and violet radiations. Red, orange, yellow and green radiations have longer wavelengths than blue, indigo and violet radiations. The depth of water and variation of composition play also a role.
Yes pink is darker than green and orange
Various colors are seen during sunrise and sunset because the light travelling through the air is scattered by air particles. Shorter wavelengths like blue and green scatter more than the longer wavelength of red and orange. At sunrise and sunset, the path of the light through the atmosphere is longer so no blue and green are visible and only red and orange light the sky. Sunset colors are more brilliant than sunrise because the evening air contains more particles as compared to the morning air.
Orange has a longer wavelength than yellow. On the spectrum of visible light red is longest and violet is shortest.