The wavelength of light with a value of 38.0 nm is in the ultraviolet region. Its frequency, given as 7.707x10^14 Hz, can be calculated using the formula: speed of light = wavelength x frequency.
Blue light has a higher frequency compared to yellow light.
Visible light waves typically range from 400 to 700 nanometers in length. However, the entire electromagnetic spectrum includes waves of varying lengths, from gamma rays with wavelengths shorter than 0.001 nanometers to radio waves with lengths of kilometers or more.
The frequency of light determines its color – higher frequency light appears bluer, while lower frequency light appears redder. In addition, the frequency of light affects its energy – higher frequency light carries more energy per photon. This is why higher frequency ultraviolet light is more harmful to living organisms than lower frequency visible light.
When the frequency of light matches the natural frequency of molecules in a material, light is absorbed by the material. This phenomenon is known as resonance absorption.
The wavelength of light is inversely proportional to its frequency. This means that light with a shorter wavelength will have a higher frequency, and light with a longer wavelength will have a lower frequency. In other words, as the wavelength decreases, the frequency increases.
it can travel from 380nm [nanometres] to 740nm
The constraints you place on the solution are confusing ... there seems to betoo many qualifications.The octave below middle-C covers the range of audio frequencies of 128 - 256 Hz.Careful measurement reveals the frequency of 380-nm light to be somewhathigher than that.Frequency = speed/wavelengthUsing the typical rounded value for the speed of light,Frequency = 300,000,000/380 x 10-9 = 7.895 x 1014 Hz(789,473.68 GHz, rounded)
It will appear somewhat Orange. This is due to the roughly 650nM wavelength from the red light and the reflection of the yellow at around 380nM.
Frequency can be found in sound, light, and line current. An example of frequency is, the frequency wave of light will determine what color the light is.
Blue light has a higher frequency compared to yellow light.
Visible light waves typically range from 400 to 700 nanometers in length. However, the entire electromagnetic spectrum includes waves of varying lengths, from gamma rays with wavelengths shorter than 0.001 nanometers to radio waves with lengths of kilometers or more.
The frequency of light determines its color – higher frequency light appears bluer, while lower frequency light appears redder. In addition, the frequency of light affects its energy – higher frequency light carries more energy per photon. This is why higher frequency ultraviolet light is more harmful to living organisms than lower frequency visible light.
When the frequency of light matches the natural frequency of molecules in a material, light is absorbed by the material. This phenomenon is known as resonance absorption.
The wavelength of light is inversely proportional to its frequency. This means that light with a shorter wavelength will have a higher frequency, and light with a longer wavelength will have a lower frequency. In other words, as the wavelength decreases, the frequency increases.
Blue light has a lower frequency than violet light. Violet light has the highest frequency in the visible spectrum, while blue light has a slightly lower frequency than violet light but higher than green light.
You can use the equation: wavelength = speed of light / frequency. Given the speed of light (3.00 x 10^8 m/s) and the frequency of the light source, divide the speed of light by the frequency to determine the wavelength of the light.
The frequency of purple light is higher than yellow light. Purple light has a shorter wavelength and higher frequency compared to yellow light which has a longer wavelength and lower frequency.