The energy of an X-ray with an 8 nm wavelength can be calculated using the equation E = h*c/λ, where h is Planck's constant, c is the speed of light, and λ is the wavelength. Plugging in the values and converting units, the energy is approximately 155 eV.
UV light has a frequency ranging from 7.5 x 10^14 Hz to 3 x 10^16 Hz, which corresponds to wavelengths between approximately 400 nm and 10 nm. UV light is divided into three categories: UVA (400-315 nm), UVB (315-280 nm), and UVC (280-100 nm), each with different biological effects.
The wavelength of red light is typically between 620 to 750 nanometers. wavelengths.
The energy of a light wave is determined by its wavelength. The energy of a 930 nm wave of light can be calculated using the energy equation E = hc/λ, where h is Planck's constant, c is the speed of light, and λ is the wavelength. Plugging in these values, the energy of a 930 nm wave of light is approximately 2.1 electronvolts.
The energy of an X-ray with a wavelength of 8 nm can be calculated using the formula E = hc/λ, where E is energy, h is Planck's constant, c is the speed of light, and λ is wavelength. Plugging in the values and converting nm to meters, the energy of an X-ray with a wavelength of 8 nm is approximately 155 eV (electron volts).
here, energy E = hf where h = plank const, f = c*wavelenght c =3*10^8m/s h = 6.626*10^-34 then simplyfying got ans....
Green light typically has a wavelength within the region of 495-570 nm
Less than that of visible light, which is in the range of about 350-700 nm - so UV rays would have a wavelength below 350 nm.
UV light has a frequency ranging from 7.5 x 10^14 Hz to 3 x 10^16 Hz, which corresponds to wavelengths between approximately 400 nm and 10 nm. UV light is divided into three categories: UVA (400-315 nm), UVB (315-280 nm), and UVC (280-100 nm), each with different biological effects.
Violet, with a wavelenght between 380 and 450 nm, which is near the end of the visible light, next to the ultraviolet region. Be careful because talk about "colors" is quite dangerous. Firstly, different cultures has different names for the same color. In addition to this, due to the fact that the electromagnetic spectra is continuous (i.e., there are infinite's wavelenghts) it is impossible to say exactly which wavelenght is the limit of the visible region and, consequently, which is the color associate to this wavelenght. Usually (but it is a convention) it is said that visible region is between 380 and 750 nm.
Transition B produces light with half the wavelength of Transition A, so the wavelength is 200 nm. This is due to the inverse relationship between energy and wavelength in the electromagnetic spectrum.
The wavelength of red light is typically between 620 to 750 nanometers. wavelengths.
255 nanometers is 0.000000255m
The energy of a light wave is determined by its wavelength. The energy of a 930 nm wave of light can be calculated using the energy equation E = hc/λ, where h is Planck's constant, c is the speed of light, and λ is the wavelength. Plugging in these values, the energy of a 930 nm wave of light is approximately 2.1 electronvolts.
The energy of an X-ray with a wavelength of 8 nm can be calculated using the formula E = hc/λ, where E is energy, h is Planck's constant, c is the speed of light, and λ is wavelength. Plugging in the values and converting nm to meters, the energy of an X-ray with a wavelength of 8 nm is approximately 155 eV (electron volts).
The energy is 18,263.10e4 joules.
here, energy E = hf where h = plank const, f = c*wavelenght c =3*10^8m/s h = 6.626*10^-34 then simplyfying got ans....
450 nm