no,wave length of sound is equal to wavelength of sound as when thunder appears,light appears first than sound because of more speed than sound but we can't considere that wave length of sound is greater than that of light
Indigo light has a greater wavelength than blue light. This is because indigo light falls between blue and violet on the electromagnetic spectrum, and wavelengths decrease from red to violet. Hence, indigo light has a longer wavelength than blue light, making it closer to violet light in terms of wavelength.
The light wave has the longer wavelength. In the time required for one wiggle, it travels roughly 880,000 times farther than the sound wave does.
A particle scatters light if it is larger than the wavelength of light. This is because scattering occurs when the size of the particle is comparable to or larger than the wavelength of the light waves it interacts with, causing the light to be redirected in different directions.
Red light has a greater wavelength than blue light because red light has a lower frequency and energy. In the electromagnetic spectrum, longer wavelengths correspond to lower frequencies, while shorter wavelengths correspond to higher frequencies. Therefore, red light, with its longer wavelength, has a lower frequency compared to blue light.
Radio, microwaves, radar, and infrared radiation have.
Indigo light has a greater wavelength than blue light. This is because indigo light falls between blue and violet on the electromagnetic spectrum, and wavelengths decrease from red to violet. Hence, indigo light has a longer wavelength than blue light, making it closer to violet light in terms of wavelength.
The light wave has the longer wavelength. In the time required for one wiggle, it travels roughly 880,000 times farther than the sound wave does.
A particle scatters light if it is larger than the wavelength of light. This is because scattering occurs when the size of the particle is comparable to or larger than the wavelength of the light waves it interacts with, causing the light to be redirected in different directions.
The speed of light is much greater than the speed of sound.
Red light has a greater wavelength than blue light because red light has a lower frequency and energy. In the electromagnetic spectrum, longer wavelengths correspond to lower frequencies, while shorter wavelengths correspond to higher frequencies. Therefore, red light, with its longer wavelength, has a lower frequency compared to blue light.
sound waves travel faster slower than light waves In air, sound travels around 300m/s.
Radio, microwaves, radar, and infrared radiation have.
A higher pitched sound has a shorter wavelength than a lower pitched sound.
No, green light has a higher frequency than yellow light. In the visible light spectrum, colors with shorter wavelengths, such as green, have higher frequencies than colors with longer wavelengths, such as yellow.
The shorter the wavelength of visible light, the higher the frequency and the greater the energy of the photons.
The frequency of red light is lower than the frequency of violet light. This is because red light has a longer wavelength, which corresponds to a lower frequency. This difference in frequency is what causes red light to be more common than violet light in natural light sources.
The wavelength of a transverse wave is the distance between adjacent crests or troughs (peaks or valleys).