Quote:
Originally Posted by sciencegirl07  The question I'm currently having trouble with is:
The work function for lithium is 279.7 kj/mol. What is the maximum wavelength of light that can remove one electron from one atom of lithium metal? |
First convert your work function to electron volts. You can do this easy enough knowing one eV equals 96.485 kJ/mol.
Then you can use this equation:
- where
is the wavelength (what you're looking for) - c is the speed of light (use 2.9979 x 10^17 nanometers/second to get your answer in nanometers)
- h is plank's constant (4.13566 X 10^-15 eV/second)
- and
is the work function in electron Volts - what we are given
That will give you the largest wavelength that can eject an electron from a lithium plate. You can both check your results and get a good description of the photoelectric effect
here.
By check your results, I mean you can input eV toward the bottom of the page and get a wavelength.
Quote:
Originally Posted by sciencegirl07 and...
The ionization energy of gold is 890.1 kj/mol. Is light with a wavelength of 225nm capable of ionizing a gold atom? |
You can use the same formula as above. Instead of "work function" being the energy in eV or
, it is "ionization energy" - but the equation is the same. See if the resulting wavelength is larger or smaller than 225 nm.
-modest
