if the sound travels with the frequency of 2.00 × 10 ^ 4 Hertz at 344 metre per second what is the wavelength
Answers
Answer:
172×10^-4m
Explanation:
USE THE FORMULA
WAVELENGTH = VELOCITY/FREQUENCY
Answer:
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Explanation:
Answer:The sound wave has a wavelength of 0.773m.
Answer:The sound wave has a wavelength of 0.773m.Explanation:
Answer:The sound wave has a wavelength of 0.773m.Explanation:To solve this problem we have to use the wave equation that is given below:
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=v
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=vf
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=vf
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=vf Let's plug in our given values and see what we get!
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=vf Let's plug in our given values and see what we get!=
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=vf Let's plug in our given values and see what we get!=340
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=vf Let's plug in our given values and see what we get!=340m
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=vf Let's plug in our given values and see what we get!=340ms
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=vf Let's plug in our given values and see what we get!=340ms440
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=vf Let's plug in our given values and see what we get!=340ms440s
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=vf Let's plug in our given values and see what we get!=340ms440s−
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=vf Let's plug in our given values and see what we get!=340ms440s−1
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=vf Let's plug in our given values and see what we get!=340ms440s−1
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=vf Let's plug in our given values and see what we get!=340ms440s−1 λ
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=vf Let's plug in our given values and see what we get!=340ms440s−1 λ=
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=vf Let's plug in our given values and see what we get!=340ms440s−1 λ=0.773
We know the frequency and the velocity, both of which have good units. All we have to do is rearrange the equation and solve for λ :λ=vf Let's plug in our given values and see what we get!=340ms440s−1 λ=0.773m