What is the energy of a photon of light of wavelength 500 nm?

What is the energy of a photon of light of wavelength 500 nm?

Question: The energy of a 500 nm photon is 4 x 10−19 J.

What is the frequency of a color of light which has a wavelength of 500 nm?

The visible spectrum

colour* wavelength (nm) frequency (1014 Hz)
orange 600 5.00
yellow 580 5.16
green 550 5.45
cyan 500 5.99

What is the momentum of 500 nm photon?

⇒P=h/λ= 500×106. 63×10J−S=1. 326×10−27=1. 33×10−27kg−m/s.

What is the frequency of light with a wavelength of 550 nm?

Rearranging, f=cλ=3.0×108550×10−9=5.45×1014 hz .

What is the energy of radiation with wavelength 500 nm?

97×10.

What is the energy of a single green light photon at 550 nm?

2 Answers. The answer is 3.54×10−19 J .

What is the wavelength of a 500 THz light wave?

Wavelength (λ) for electromagnetic radiation of frequency 500 THz in Air is 597.851 nm (nanometer)

Hz KHz MHz GHz THz PHz EHz =? λ (wavelength)

What is the energy in one photon of green light whose wavelength is 550 nm?

The answer is 3.54×10−19 J .

How do you find the momentum of a photon?

The momentum of a photon is directly proportional to its frequency and inversely proportional to its wavelength. If the wavelength of a photon is known, its momentum can be calculated using the formula 𝑝 = ℎ 𝜆 . If the frequency of a photon is known, its momentum can be calculated using the formula 𝑝 = ℎ 𝑓 𝑐 .

How do you find wavelength using momentum?

To calculate the momentum, we use the de Broglie equation: p = h / lambda. The momentum of each photon is equal to Planck’s constant divided by the wavelength of the light. So, plugging the numbers in, that’s 6.63 * 10^-34 divided by 4.5 * 10^-7, which is 1.47 * 10^-27 kilogram meters per second.

What is the frequency of 540 nm?

540~580 THz is the typical frequency of green light.

What is the frequency of yellow light 550 nm?

2.7×1014Hz.