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What is the wavelength of a photon emitted during a transition from the n equals 3 to the n equals 1 state in the H atom?
Wiki User
∙ 13y ago
1/t=2.18-10^-18^J
____________ (1/n_f_^2^ -1/n_f_^2^)=
hc
2.18*10^-18^J/(6.63*10^-34^Js)(3.00*1//0^8^m/s)(1/1^2^-1/1^2^)
=1.10*10^7^/m (1-1/9)=1.10*10^-7^/m(8/9)
=9.74*10^6^/m
t=(9.74*10^6^/m)^-1^=1.03*10^-7^m=103nm
Wiki User
∙ 13y ago
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Why is a shorter wavelength of light emitted when an electron falls from n equals 4 to n equals 1 than when an electron falls from n equals 2 to n equals 1?
Shorter wavelength = more energy. The farther the electron falls, the more energy that will be emitted.
What wavelength lambda should the astrophysicist look for to detect a transition of an electron from the n equals 7 to the n equals 3 level?
1005 m
How To find wavelength?
Wavelength times frequency equals 'the speed of light'. so wl = c/f
Frequency multipled by hertz equals speed?
No; hertz is frequency.Frequency times wavelength equals speed of travel.
Frequency equals speed divided by what?
Frequency = speed divided by wavelength
Why is a shorter wavelength of light emitted when an electron falls from n equals 4 to n equals 1 than when an electron falls from n equals 2 to n equals 1?
Shorter wavelength = more energy. The farther the electron falls, the more energy that will be emitted.
What is the wavelength and frequency of a photon emitted during a transition from n equals 5 to n equals 2 in hydrogen atom?
Drops to the ground state. Use this formula. Hydrogen has a 1 Z number. Frequency = (3.29 X 1015 Hertz) * Z2 * (1/Nf2 - 1/Ni2) To keep it positive, Frequency = (3.29 X 1015 Hertz) * 12 * (1/22 - 1/02) = 8.23 X 1014 Hertz emitted -------------------------------------
Determine the end value of n in a hydrogen atom transition if the electron starts in n equals 4 and the atom emits a photon of light with a wavelength of 486nm?
The wavelength of light emitted during a transition can be related to the energy levels involved using the Rydberg formula. Rearranging the formula for the final energy level, we find that the end value of n is 2 in this case. This means the electron transitions from the n=4 to the n=2 energy level in the hydrogen atom.
What wavelength lambda should the astrophysicist look for to detect a transition of an electron from the n equals 7 to the n equals 3 level?
1005 m
Frequency divided by the speed of light equals?
That would be the reciprocal of wavelength.( 1 ) divided by (wavelength) .
What color is the wavelength of light in the Balmer series that results from the transition of an electron to N equals 2?
There are 4 Balmer lines with wavelengths in the visible region. They are red, aqua and two shades of violet. Other Balmer lines are in the ultraviolet. The red line corresponds to the transition from n = 3 to n = 2, the subsequent ones are from the 4, 5 and 6 levels to n = 2.
How do you calculate red shift?
The spectrum of light emitted from heated hydrogen has dark lines, caused by the absorption of a very narrow wavelength band of light. These dark lines always take the same location relative to each other. If all the lines in an object's spectrum are shifted by the same amount, towards the red end of the visible spectrum, then the light is "red shifted." The amount of the shift is often described with a number 'z', where z equals the shift in wavelength divided by the wavelength as originally emitted by the object.
What is the equation velocity equals wavelength x frequency called?
The equation velocity equals wavelength multiplied by frequency is called the wave equation. It describes the relationship between the speed of a wave, its wavelength, and its frequency.
Are frequency and wavelength related?
Yes, velocity equals the product of frequency times wavelength, v=fw.
How To find wavelength?
Wavelength times frequency equals 'the speed of light'. so wl = c/f
What is the wavelength of a photon that will induce a transition from the ground state to the n equals 4 state in hydrogen?
The wavelength of the photon can be calculated using the Rydberg formula: 1/λ = R(1/4^2 - 1/n^2), where R is the Rydberg constant. Substituting n=4, the calculation gives a wavelength of approximately 97.2 nm.
Does longer wavelength mean higher frequency?
No. Longer wavelength means lower frequency.When you multiply wavelength by frequency, the product is always the same.
