a student rings a brass bell with a frequency of 300 hz. the sound wave travels through brass, air, and glass. what is the wavelength of the wave in brass?

| medium | wave speed (m/s) |
| ---- | ---- |
| brass | 4,700 |
| air | 346 |
| glass | 5,640 |

a. 0.64 m
b. 16 m
c. 0.064 m
d. 1.6 m

Question

a student rings a brass bell with a frequency of 300 hz. the sound wave travels through brass, air, and glass. what is the wavelength of the wave in brass?

| medium | wave speed (m/s) |
| ---- | ---- |
| brass | 4,700 |
| air | 346 |
| glass | 5,640 |

a. 0.64 m
b. 16 m
c. 0.064 m
d. 1.6 m

Accepted Answer

# Explanation:
## Step1: Recall wave - speed formula
The wave - speed formula is $v = f\lambda$, where $v$ is the wave speed, $f$ is the frequency, and $\lambda$ is the wavelength. We want to find $\lambda$, so we can re - arrange the formula to $\lambda=\frac{v}{f}$.
## Step2: Identify values from the table
The frequency $f = 300$ Hz and the wave speed in brass $v = 4700$ m/s.
## Step3: Calculate the wavelength
Substitute the values into the formula: $\lambda=\frac{4700}{300}\approx15.67$ m $\approx16$ m.

# Answer:
B. 16 m

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QUESTION IMAGE

Question

Explanation:

Step1: Recall wave - speed formula

Step2: Identify values from the table

Step3: Calculate the wavelength

Answer: