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What is Relative Velocity?

The velocity of an object only really has meaning when it is expressed relative to a set of axes or 'frame of reference'.
Relative Velocity | Physics Class 11 - NEET


We usually consider the motion of objects moving relative to the Earth, but since the Earth is orbiting the Sun and the Sun is moving through the Galaxy this is a purely arbitrary concept. When dealing with more than one body in motion the problem is complex - consider the difficulties in sending the space probe Giotto to rendezvous with Halley's comet many millions of miles away!

We should always specify the frame of reference relative to which an object is moving.

The velocity of one body relative to another is called its relative velocity.


Think about the case where both bodies are moving relative to a third. A simple example would be where the motions of both bodies are in the same straight line - for instance, two cars travelling along a motorway. If both cars are travelling in the same direction, one at 25 ms-1 and the other at 35 ms-1 then their relative velocity is 10 ms-1 (by vector addition). 


If they are moving in opposite directions, however, the relative velocity of one car with respect to the other is therefore 60ms-1 (See Figure 1).


Relative Velocity | Physics Class 11 - NEET
What we are effectively doing is considering one car to be at rest and finding the velocity of the other car in that frame of reference. To do this we must add the negative of the velocity of one car to both cars' velocities. This effectively brings one to rest and we then consider the velocity of the other car relative to it.

The situation is a little more complex when the motion of the two objects is not in the same straight line. Consider the case shown in Figure 2.

Relative Velocity | Physics Class 11 - NEET
Here the two cars are still moving at the same speeds but this time at right angles to each other as they approach a junction.

The relative velocity is found by using a vector triangle.

If we add the negative of the velocity of the red car (-25) to both the velocity of the red car and the green car we can imagine the red car to be at rest and then find the velocity of the green car relative to it. (See Figure 3).

Relative Velocity | Physics Class 11 - NEET
This is most easily done by drawing the vector diagram. The resultant shown by the vector R is the velocity of the green car relative to the red car. In our example the velocity of the green car relative to the red car is 43 ms-1 and in a direction of 325o.
Think about the result and see if it matches your common sense view of how you would see the green car moving if you were in the red car. It would seem to be moving up the page and towards the left. It does actually fit the result!

Relative motion at angles other than 90o
We will consider the case where the cars are not moving at right angles to each other. 

In fact we will not consider cars at all but the two aeroplanes shown in Figure 4 (a).

To find the velocity of plane A relative to plane B we must 'make plane B stationary'. We do this by adding the negative of plane B's velocity to both planes. If we were on plane B it would be like making that plane stop and we would then see plane A moving relative to us. This is done in Figure 4(b).
Relative Velocity | Physics Class 11 - NEET

The document Relative Velocity | Physics Class 11 - NEET is a part of the NEET Course Physics Class 11.
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FAQs on Relative Velocity - Physics Class 11 - NEET

1. What is relative velocity?
Ans. Relative velocity is the velocity of an object or particle with respect to another object or particle. It describes how fast one object is moving in relation to another object and is typically measured in meters per second or kilometers per hour.
2. How is relative velocity calculated?
Ans. Relative velocity is calculated by subtracting the velocity of one object from the velocity of another object. If both objects are moving in the same direction, the relative velocity is the difference between their speeds. If they are moving in opposite directions, the relative velocity is the sum of their speeds.
3. Can relative velocity be negative?
Ans. Yes, relative velocity can be negative. A negative relative velocity indicates that the two objects are moving in opposite directions. For example, if one car is moving east at 30 km/h and another car is moving west at 20 km/h, their relative velocity would be -10 km/h.
4. Why is relative velocity important in physics?
Ans. Relative velocity is important in physics because it helps in understanding the motion of objects in relation to each other. It allows us to determine how two objects are moving with respect to one another, which is crucial in analyzing collisions, calculating forces, and predicting the outcome of interactions between objects.
5. How does relative velocity affect collisions?
Ans. Relative velocity plays a significant role in collisions. The relative velocity between two objects before a collision determines the magnitude and direction of the impact. By considering the relative velocities of the objects involved, physicists can analyze and predict the outcome of collisions, such as whether they will result in an elastic or inelastic collision.
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