The wavelength is 610 nm.
The wavelength is 436 nm.
Wavelength = (Planck's Constant)(Speed of Light)/(Energy of Photon)
Wavelength= (6.626 × 10 -34 joule·s)(2.998 × 108 m/s)/(5.25 x 10-6 J)
Wavelength= 3.78 x 10-20 m
it can be calculated by formula e= hc/wavelength, where h is planks constant. C is velocity of light
The wavelength is 436 nm.
The wavelength is 435,62 nm.
9.72×10−8
588 nm
electron lost 3.6 x 10-19 -barbie=]
1.26 x 10-24 J
The formula for frequency is f = c/lambda, where c is the speed of light in a vacuum, lambda is the wavelength in meters, and f is frequency in cycles per second. So, if the wavelength is 700.5 nm, the frequency is 4.28 E14 hertz.
lambda= hc/E -9.7*10^-8 m
E = hc/(wavelength) (Sorry but there ain't no button for lambda on the keyboard) h = 6.63 x 10-34, c = 3 x 108 E = (6.63 x 10-34 x 3 x 108) / 495 x 10-9 E = 4.0181818... x 10-19 NB if the wavelength is in nanometers, expect the final order of magnitude to be 10-19 or thereabout.
A photon of this wavelength has an energy of about 10 ^ -5 eV.
The wavelength is 610 nm.
The wavelength is 435,62 nm.
610 nm
2.21•10^-18 J
4.44 10-19 j
4.7*10^-19 j
4.44 10-19 j
4.9695 nm
2.21x10-18j
3.84 x 10-19 joules.
Energy of photon = Plank's ConstantXVelocity of light/Wavelength = h*c/lambda Put the values to get the answer.