The frequency of an ultraviolet photon with a wavelength of 100 nm can be calculated using the equation: frequency = speed of light / wavelength. Plugging in the values (speed of light = 3 x 10^8 m/s, wavelength = 100 nm = 100 x 10^-9 m) gives a frequency of approximately 3 x 10^15 Hz.
The frequency of a photon with a wavelength of 100 m can be calculated using the formula frequency = speed of light / wavelength. Given the speed of light is 3.00 x 10^8 m/s, the frequency would be 3.00 x 10^6 Hz.
The frequency with the shortest wavelength would be 100 GHz. Wavelength is inversely proportional to frequency, meaning higher frequencies have shorter wavelengths. So, 100 GHz would have a shorter wavelength compared to 1 GHz, 100 MHz, and 10 MHz.
The frequency of a wave is calculated by dividing the velocity by the wavelength. In this case, the frequency would be 5 Hz (100 m/s / 20 m = 5 Hz).
The speed of a wave is calculated by multiplying its wavelength by its frequency. Therefore, the speed of the wave with a 0.2 Hz wavelength and 100 meters frequency would be 20 meters per second (0.2 Hz * 100 meters = 20 m/s).
To find the speed of the wave, you can use the formula: speed = frequency x wavelength. Given the frequency is 0.2 Hz and wavelength is 100 meters, you can calculate the speed of the wave as 0.2 Hz x 100 meters = 20 meters per second.
The frequency of a photon with a wavelength of 100 m can be calculated using the formula frequency = speed of light / wavelength. Given the speed of light is 3.00 x 10^8 m/s, the frequency would be 3.00 x 10^6 Hz.
velocity = frequency × wavelength frequency = velocity / wavelength f= 100 /20 f= 5 Hz
Frequency = speed/wavelength = 300,000,000/3 = 100 MHz.
Less than that of visible light. The Wikipedia lists a wavelength between about 100 and 310 nm.
The frequency with the shortest wavelength would be 100 GHz. Wavelength is inversely proportional to frequency, meaning higher frequencies have shorter wavelengths. So, 100 GHz would have a shorter wavelength compared to 1 GHz, 100 MHz, and 10 MHz.
The frequency of a wave is calculated by dividing the velocity by the wavelength. In this case, the frequency would be 5 Hz (100 m/s / 20 m = 5 Hz).
The speed of a wave is calculated by multiplying its wavelength by its frequency. Therefore, the speed of the wave with a 0.2 Hz wavelength and 100 meters frequency would be 20 meters per second (0.2 Hz * 100 meters = 20 m/s).
To find the speed of the wave, you can use the formula: speed = frequency x wavelength. Given the frequency is 0.2 Hz and wavelength is 100 meters, you can calculate the speed of the wave as 0.2 Hz x 100 meters = 20 meters per second.
Since the speed of the wave is equal to the wavelength times the frequency, all you need to do is divide the speed by the wavelength in this case.
No. Infrared (IR) light is longer wavelength (lower frequency) light and is of lower electromagnetic energy than shorter wavelength (higher frequency) ultraviolet (UV) light. Note that our skin "senses" infrared light (which we normally think of as heat) in a different way than it does ultraviolet light. This may account for the difference in the way it "feels" when we're exposed to light of the two energies. To be clear, ultraviolet light has higher energy photon for photon than infrared light. If both are absorbed by the skin, the reaction of the skin will be slightly different, but the energy imparted to the skin will be greater with the UV light that the IR light.
The frequency of the wave is equal to the speed of the wave divided by the wavelength. In this case, the frequency would be 10 Hz.
Frequency = speed/wavelength = 300,000,000/3 = 100 MHz.