Light And Energy Equation Problems

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Answer the Following problems showing all work. Remember, you are solving the problems either using dimensional analysis (DA) or equation method.

Remember
a. Your constants or conversion factors are c = 3.00E8 m/s or 3.00E8 m Hz, 1 Hz = 1 (1/s), h = 6.60E-34 J/Hz
b. If you use equations they are c=(lamdha)(f), E=(h)(f)
c. Write 1/s as one unit over another not a slash
d. For example, 6.50E-4 m also can be written as 6.50 X 10-4 m
e. For knowing color, leave blank until I get you a visible light spectrum with wavelength scale

Light Equation

1) What is the wavelength (in m) of light that has a frequency of 6.45E14 Hz?







2) What is the frequency of light if it has a wavelength of 4.51E-7m ?







3) What is the wavelength (in nm) of light that has a frequency of 8.95E13 Hz?









4) What is the frequency if the wavelength is 2.30nm ?







5) What is the wavelength of light if the frequency was 1.25E15Hz ?







6) What is the frequency of light if it has a wavelength of 1.58E-6 m ?







Energy Equation (also called Planck's Equation)

7) What is the the energy in light that has a frequency of 1.85E15 Hz?







8) What is the frequency of light if the energy (as Planck said the energy packet size) is 6.19E-19 J ?










9) What is the energy (as Planck said, the photon) of the light if it has a frequency of 3.77E14Hz ?







10) What is the frequency of light if the energy is 4.15E-18J ?













11) What is the energy of light if the frequency is 2.57E14 Hz ?








Combined Equation (Energy to Wavelength in nm or Color Equation)

12) What is the wavelength of light if its energy is 5.15E-19J ?









13) What is the wavelength of light (in nm) if its energy is 2.32E-19 J ?












14) An atom has one of its electron in a higher energy level (atom is in excited state) due to absorbing light with energy of 2.66E-19J. When the electron falls back down to the original lower energy level (atom back into ground state), the energy is emitted. What is the wavelength and color of the emitted energy.





















15) An atom has one of its electron in a higher energy level due to absorbing light with energy of 3.52E-19J. When the electron falls back down to the original lower energy level (atom back into ground state), the energy is emitted. What is the wavelength (in nm) and color of the emitted energy.

























16) What is the wavelength (in nm) and color of energy emitted from an atom as one of its electron falls back down to its original lower energy level from a higher energy level. The enery emitted is 4.49E-19J






















17) What is the wavelength (in nm) and color of energy emitted from an atom as one of its electron falls back down to its original lower energy level from a higher energy level. The enery emitted is 4.73E-19














































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Last edited October 17, 2016 12:51 pm (diff)
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