Light Problems - FREE Chemistry Materials, Lessons ...
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Chemistry: Light Problems
Directions: Solve the following problems. Show proper set-up, work, and units for full credit. Box in your final answer.
1. A wave has a frequency of 22 Hz and a wavelength of 4.0 m. What is its velocity?
2. What is the frequency of a wave if its wavelength is 3.6 x 10–9 m and its velocity is 3.0 x 108 m/s?
3. As you move across the continuous spectrum from red to violet, what happens to…
a. wavelength?
b. frequency?
4. A beam of microwaves has a frequency of 1.0 x 109 Hz. A radar beam has a frequency of 5 x 1011 Hz. Which type of radiation…
a. has the longer wavelength?
b. is nearer to visible light in the electromagnetic spectrum?
c. is closer to X-rays in frequency value?
5. A bright line spectrum contains a line with a wavelength of 518 nm. Determine…
a. the wavelength, in meters. (Hint: 1 x 109 nm = 1 m)
b. the frequency.
c. the energy.
d. the color of the line.
6. A photon has an energy of 4.00 x 10–19 J. Find…
a. the frequency of the radiation.
b. the wavelength of the radiation.
c. the region of the electromagnetic spectrum that this radiation represents.
7. A photon of light has a wavelength of 3.20 x 105 m. Find…
a. the frequency of the radiation.
b. the energy of the photon.
c. the region of the electromagnetic spectrum that this radiation represents.
8. Determine the frequency of light with a wavelength of 4.257 x 10–7 cm.
9. How many minutes would it take a radio wave with a frequency of 7.25 x 105 Hz to travel from Mars to Earth if the distance between the two planets is approximately 8.0 x 107 km?
10. Cobalt-60 is an artificial radioisotope that is produced in a nuclear reactor for use as a gamma-ray source in the treatment of certain types of cancer. If the wavelength of the gamma radiation from a cobalt-60 source is 1.00 x 10–3 nm, calculate the energy of a photon of this radiation.
Selected 1. 88 m/s 5a. 5.18 x 10–7 m 5c. 3.84 x 10–19 J 6b. 4.97 x 10–7 m 7b. 6.21 x 10–31 J 9. 4.4 minutes
Answers: 2. 8.3 x 1016 Hz 5b. 5.79 x 1014 Hz 6a. 6.03 x 1014 Hz 7a. 938 Hz 8. 7.047 x 1016 Hz 10. 1.99 x 10–13 J
KEY
Chemistry: Light Problems
Directions: Solve the following problems. Show proper set-up, work, and units for full credit. Box in your final answer.
1. A wave has a frequency of 22 Hz and a wavelength of 4.0 m. What is its velocity?
[pic]
2. What is the frequency of a wave if its wavelength is 3.6 x 10–9 m and its velocity is 3.0 x 108 m/s?
[pic]
3. As you move across the continuous spectrum from red to violet, what happens to…
a. wavelength? wavelength shortens
b. frequency? frequency increases
4. A beam of microwaves has a frequency of 1.0 x 109 Hz. A radar beam has a frequency of 5 x 1011 Hz. Which type of radiation…
a. has the longer wavelength? microwave
[pic] [pic] [pic]
b. is nearer to visible light in the electromagnetic spectrum? radar
c. is closer to X-rays in frequency value? radar
5. A bright line spectrum contains a line with a wavelength of 518 nm. Determine…
a. the wavelength, in meters. (Hint: 1 x 109 nm = 1 m)
[pic]
b. the frequency.
[pic]
KEY – page 2
Chemistry: Light Problems
c. the energy.
[pic]
d. the color of the line.
green or yellow-green
6. A photon has an energy of 4.00 x 10–19 J. Find…
a. the frequency of the radiation.
[pic]
b. the wavelength of the radiation.
[pic]
c. the region of the electromagnetic spectrum that this radiation represents.
visible spectrum; [pic] (blue-green color)
7. A photon of light has a wavelength of 3.20 x 105 m. Find…
a. the frequency of the radiation.
[pic]
b. the energy of the photon.
[pic]
c. the region of the electromagnetic spectrum that this radiation represents.
power transmissions
8. Determine the frequency of light with a wavelength of 4.257 x 10–7 cm.
[pic]
KEY – page 3
Chemistry: Light Problems
9. How many minutes would it take a radio wave with a frequency of 7.25 x 105 Hz to travel from Mars to Earth if the distance between the two planets is approximately 8.0 x 107 km?
[pic] [pic]
[pic]
10. Cobalt-60 is an artificial radioisotope that is produced in a nuclear reactor for use as a gamma-ray source in the treatment of certain types of cancer. If the wavelength of the gamma radiation from a cobalt-60 source is 1.00 x 10–3 nm, calculate the energy of a photon of this radiation.
[pic]
[pic]
Selected 1. 88 m/s 5a. 5.18 x 10–7 m 5c. 3.84 x 10–19 J 6b. 4.97 x 10–7 m 7b. 6.21 x 10–31 J 9. 4.4 minutes
Answers: 2. 8.3 x 1016 Hz 5b. 5.79 x 1014 Hz 6a. 6.03 x 1014 Hz 7a. 938 Hz 8. 7.047 x 1016 Hz 10. 1.99 x 10–13 J
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