QUESTION 3 The ground level of the hydrogen atom has an energy E₁=- 13.6 eV while the first excited state has an energy E= -3.4 eV. 1 Calculate the energy difference of an electron going from the first excited state back to the ground state. QUESTION 4 What in the frequency of the photon emitted by the electron in Question 32

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QUESTION 3PLEASE

QUESTION 1
A photon emitted by a blackbody has an energy of 1.021 J. What is the frequency of such a photon?(h=6.63.10-34 J.s)
QUESTION 2
What is the energy (in eV) of a gamma-ray photon with frequency f=5.67-102¹ Hz? (h=4.136-10-15eV/Hz)
QUESTION 3
The ground level of the hydrogen atom has an energy E,= 13.6 eV while the first excited state has an energy
Calculate the energy difference of an electron going from the first excited state back to the ground state.
1
QUESTION 4
What is the frequency of the photon emitted by the electron in Question 3?
QUESTION 5
E
2= -3.4 eV.
An electron has a wavelength of 0.267 nm (1 nm = 10-9 m). What is the speed of such electron orbiting the nucleus? (
m=9.11-10-31 kg)
Transcribed Image Text:QUESTION 1 A photon emitted by a blackbody has an energy of 1.021 J. What is the frequency of such a photon?(h=6.63.10-34 J.s) QUESTION 2 What is the energy (in eV) of a gamma-ray photon with frequency f=5.67-102¹ Hz? (h=4.136-10-15eV/Hz) QUESTION 3 The ground level of the hydrogen atom has an energy E,= 13.6 eV while the first excited state has an energy Calculate the energy difference of an electron going from the first excited state back to the ground state. 1 QUESTION 4 What is the frequency of the photon emitted by the electron in Question 3? QUESTION 5 E 2= -3.4 eV. An electron has a wavelength of 0.267 nm (1 nm = 10-9 m). What is the speed of such electron orbiting the nucleus? ( m=9.11-10-31 kg)
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