Calculate the energy of electron transitions in a one-electron (bohr) system Question What is the wavelength...
Calculate the energy of electron transitions in a one-electron (bohr) system
Question
What is the wavelength of a photon that will excite an electron from n=3 to n=5 in a hydrogen atom?
- Use R∞=2.179×10−18J for the hydrogen atom Rydberg constant.
- Use h=6.626×10−34 Js for Planck's constant.
- Use c=2.998×108ms for the speed of light.
Homework Answers
the energy of electron transitions in a one-electron (bohr) system :
wavelength of a photon that will excite an electron from n=3 to n=5 in a hydrogen atom?
We have :
- R∞=2.179×10−18J ( hydrogen atom Rydberg constant.}
- h=6.626×10−34 Js ( Planck's constant.)
- c=2.998×108 ms ( speed of light
from one-electron bohr model dE
= (hc/
) = R∞
((1/n12) -(1/n22)
-
we have, n1= 3 (obital from where electron under going excitation by absorption of light : lower in energy (more negative energy)) ;
n2=5 (obital where excited electron will reach : higher in energy (less negative energy).
dE = (hc/ )
=2.179×10−18J ((1/32) -(1
/ 52))
dE = (hc/ ) =
1.5495×10−19J
(6.626×10−34 Js*
2.998×108 ms/ ) =
1.5495×10−19J
=
1.282*10−6 m
(1 nm = 10-9 m )
= 1282 nm
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Calculate the energy
of electron transitions in a one-electron (bohr) system
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