1. Differentiate between mechanical and electromagnetic waves. Give examples.
2. Draw a wave and identify the primary parts (wavelength, crest, trough, amplitude).
3. Find the speed of a 500 Hz wave with a wavelength of 0.4 m.
4. What is the frequency of a wave that travels at 24 m/s, if 3 full waves fit in a 12-m space? (Hint: find the wavelength first.)
5. Approximately how much greater is the speed of light than the speed of sound?
6. Harmonics
a. Draw the first 3 harmonics for a wave on a string.
b. If the length of the string is 1-m, find the wavelengths of these harmonics.
c. If the frequency of the first harmonic (n = 1) is 10 Hz, find the frequencies of the next 2 harmonics.
d. Find the speeds of the 3 harmonics. Notice a trend?
a. Draw the first 3 harmonics for a wave on a string.
b. If the length of the string is 1-m, find the wavelengths of these harmonics.
c. If the frequency of the first harmonic (n = 1) is 10 Hz, find the frequencies of the next 2 harmonics.
d. Find the speeds of the 3 harmonics. Notice a trend?
7. Show how to compute the wavelength of WTMD's signal (89.7 MHz). Note that MHz means 'million Hz."
8. A C-note vibrates at 262 Hz (approximately). Find the frequencies of the next 2 C's (1 and 2 octaves above this one).
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1, 2. See notes.
3. 200 m/s
4. wavelength is 4 m. Frequency is 6 Hz.
5. 3,000,000 / 340 --- that's around a million to one ratio
6.
a. see notes
b. wavelengths are: 2 m, 1 m, and 2/3 m
c. frequencies are 10, 20 and 30 Hz, respectively, for n = 1, 2 and 3
d. speeds are all constant: 20 m/s
7. speed of light divided by 89.7 MHz. That is 300,000,000 / 89,700,000, which works out to around 3.3 m.
8. 524 Hz and 1048 Hz
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