2. When a tennis racket strikes a tennis ball, the racket begins to vibrate. There is a set of selected frequencies at which the racket will tend to vibrate. Each frequency in the set is characterized by a particular standing wave pattern. The diagrams below show the three of the more common standing wave patterns for the vibrations of a tennis racket. In each diagram, hash marks are placed at the positions of all nodes and antinodes; label these nodes (N) and antinodes (AN). 11111111 Pattern A Pattern B λA |-- Pattern C Compare the wavelength of pattern A to the wavelength of pattern B. Make your comparison both qualitative and quantitative. Repeat for pattern C. λA ^B (<,>,=) _^℃ (<,>,=) 2A = AB (2, 3, 4, etc.) ^A = AC (2, 3, 4, etc.) When the racket vibrates as in pattern A, its frequency of vibration is approximately 30 Hz. Determine the frequency of vibration of the racket when it vibrates as in pattern B and pattern C. Hz fB = fc = Hz
2. When a tennis racket strikes a tennis ball, the racket begins to vibrate. There is a set of selected frequencies at which the racket will tend to vibrate. Each frequency in the set is characterized by a particular standing wave pattern. The diagrams below show the three of the more common standing wave patterns for the vibrations of a tennis racket. In each diagram, hash marks are placed at the positions of all nodes and antinodes; label these nodes (N) and antinodes (AN). 11111111 Pattern A Pattern B λA |-- Pattern C Compare the wavelength of pattern A to the wavelength of pattern B. Make your comparison both qualitative and quantitative. Repeat for pattern C. λA ^B (<,>,=) _^℃ (<,>,=) 2A = AB (2, 3, 4, etc.) ^A = AC (2, 3, 4, etc.) When the racket vibrates as in pattern A, its frequency of vibration is approximately 30 Hz. Determine the frequency of vibration of the racket when it vibrates as in pattern B and pattern C. Hz fB = fc = Hz
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![2.
When a tennis racket strikes a
tennis ball, the racket begins to
vibrate. There is a set of selected
frequencies at which the racket will
tend to vibrate. Each frequency in
the set is characterized by a
particular standing wave pattern.
The diagrams below show the three
of the more common standing wave
patterns for the vibrations of a
tennis racket. In each diagram,
hash marks are placed at the
positions of all nodes and
antinodes; label these nodes (N)
and antinodes (AN).
11111111
Pattern A
Pattern B
λA
Pattern C
Compare the wavelength of pattern A to the wavelength of pattern B. Make your comparison both
qualitative and quantitative. Repeat for pattern C.
λA
λB (<,>,=)
_^℃ (<,>,=)
^A =
AB (2, 3, 4, etc.)
^A =
AC (2, 3, 4, etc.)
When the racket vibrates as in pattern A, its frequency of vibration is approximately 30 Hz.
Determine the frequency of vibration of the racket when it vibrates as in pattern B and pattern C.
Hz
fB =_
fc =
Hz](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ffca9c174-d59d-45de-8eed-1099c84ebc46%2Fd22157f8-ba10-47bf-8ad7-4e329e77add0%2Fqs4q7ei_processed.jpeg&w=3840&q=75)
Transcribed Image Text:2.
When a tennis racket strikes a
tennis ball, the racket begins to
vibrate. There is a set of selected
frequencies at which the racket will
tend to vibrate. Each frequency in
the set is characterized by a
particular standing wave pattern.
The diagrams below show the three
of the more common standing wave
patterns for the vibrations of a
tennis racket. In each diagram,
hash marks are placed at the
positions of all nodes and
antinodes; label these nodes (N)
and antinodes (AN).
11111111
Pattern A
Pattern B
λA
Pattern C
Compare the wavelength of pattern A to the wavelength of pattern B. Make your comparison both
qualitative and quantitative. Repeat for pattern C.
λA
λB (<,>,=)
_^℃ (<,>,=)
^A =
AB (2, 3, 4, etc.)
^A =
AC (2, 3, 4, etc.)
When the racket vibrates as in pattern A, its frequency of vibration is approximately 30 Hz.
Determine the frequency of vibration of the racket when it vibrates as in pattern B and pattern C.
Hz
fB =_
fc =
Hz
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