Doppler effect/ both moving same direction

In summary: It would have been better if you had precisely mentioned what "u", "uo" and "us" are in the equation you have written. The equation is valid in all situations provided you know what "u", "uo" and "us" are in the given equation. This also matches with my previous statement about shifting reference frames. In that case the physical values of the aforementioned quantities may change, but the equation still holds.
  • #1
QuarkDecay
47
2
What happens if a source and the observer move at the same direction?
Always hear how only one of them doesnot move, or when they move towards each other.

For example. An ambulance moves towards direction A with Va. A biker moves towards direction A as well, with Vb.
What happens to the Doppler equation, if
(a) Va>Vb
(b) Va<Vb
 
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  • #2
You consider a relative velocity between them. Imagine two objects both moving with the same velocity; you would predict no Doppler shift because they are both at rest in the center of momentum frame, for instance.
 
  • #3
If you have a good idea of how Doppler Effect works when one is at rest then just shift your reference frame to one in which either of the moving objects is at rest. Then the unknown problem turns into a known situation.
 
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  • #4
CrazyNinja said:
If you have a good idea of how Doppler Effect works when one is at rest then just shift your reference frame to one in which either of the moving objects is at rest. Then the unknown problem turns into a known situation.

You then have to take into consideration that the air is moving in that frame of reference.
 
  • #5
pixel said:
You then have to take into consideration that the air is moving in that frame of reference.

Yes true. The velocity of sound with respect to the medium gets adjusted accordingly.
 
  • #6
So is it wrong if the final frequency becomes f'=[(u+uo)/(u+us)]f, since we consider that the source is moving away from the observer, while the observer moves closer to it (when the velocity of the observer is higher than the source's)
 
  • #7
QuarkDecay said:
So is it wrong if the final frequency becomes f'=[(u+uo)/(u+us)]f, since we consider that the source is moving away from the observer, while the observer moves closer to it (when the velocity of the observer is higher than the source's)

It would have been better if you had precisely mentioned what "u", "uo" and "us" are in the equation you have written. The equation is valid in all situations provided you know what "u", "uo" and "us" are in the given equation. This also matches with my previous statement about shifting reference frames. In that case the physical values of the aforementioned quantities may change, but the equation still holds.
 

Related to Doppler effect/ both moving same direction

1. How does the Doppler effect work?

The Doppler effect is the change in frequency of a wave when the source and observer are in relative motion. This results in a perceived change in the pitch of the sound or the color of the light. When the source and observer are moving towards each other, the frequency increases, and when they are moving away from each other, the frequency decreases.

2. What causes the Doppler effect?

The Doppler effect is caused by the relative motion between the source of the wave and the observer. This can occur when either the source or the observer is moving, or both are moving in the same or opposite directions.

3. How is the Doppler effect used in real life?

The Doppler effect has many practical applications in various fields such as astronomy, meteorology, and medicine. It is used to measure the speed and direction of moving objects, detect weather patterns, and diagnose medical conditions such as heart problems.

4. Does the speed of the source affect the Doppler effect?

Yes, the speed of the source does affect the Doppler effect. The faster the source is moving, the greater the change in frequency will be. This means that a source moving towards an observer at a higher speed will result in a larger increase in frequency, and a source moving away from an observer at a higher speed will result in a larger decrease in frequency.

5. Can the Doppler effect occur with non-sound waves?

Yes, the Doppler effect can occur with any type of wave, including light waves and water waves. In these cases, the change in frequency results in a change in the perceived color or wavelength of the wave.

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