Question

Question 17 of 25

A sound wave from a brass bell passes through the air with a
wavelength of 3.5 m. When the sound wave originated in the
brass bell, its wavelength was 47 m. If the sound wave has a
constant frequency of 100 Hz, what was its speed as it
traveled through the brass bell? (The equation for wave speed
is v= f*1.)
A. 3,500 m/s
B. 4,700 m/s
C. 350 m/s
D. 470 m/s

Answer 1

B.) 4700 m/s

Step-by-step explanation:

Answer 2

The speed of the wave as it travelled through the brass bell is;

B. 4,700 m/s

Step-by-step explanation:

The given parameters are;

The wavelength of the sound wave produced from the brass bell,
`\lambda _((air))` = 3.5 m

The wavelength of the wave in the brass bell,
`\lambda _((brass \ bell))` = 47 m

The frequency of the wave in the brass bell, f = 100 Hz

The given equation for wave speed, v = f × λ

Therefore, the speed of the wave as it travelled through the brass bell,
`v _((brass \ bell))`, is given as follows;

`v _((brass \ bell))` = f ×
`\lambda _((brass \ bell))` = 100 Hz × 47 m = 4,700 m/s

The speed of the wave as it travelled through the brass bell =
`v _((brass \ bell))` = 4,700 m/s