A bus has velocity of 20m/s towards east and another bus has velocity of 15m/s in west direction.If they start to move from a point simultaneously, what distance do they cover in 2 minutes?What will be their seperation?
Answers
Answer:
Motion does not happen in isolation. If you’re riding in a train moving at 10 m/s east, this velocity is measured relative to the ground on which you’re traveling. However, if another train passes you at 15 m/s east, your velocity relative to this other train is different from your velocity relative to the ground. Your velocity relative to the other train is 5 m/s west. To explore this idea further, we first need to establish some terminology.
Reference Frames
To discuss relative motion in one or more dimensions, we first introduce the concept of reference frames. When we say an object has a certain velocity, we must state it has a velocity with respect to a given reference frame. In most examples we have examined so far, this reference frame has been Earth. If you say a person is sitting in a train moving at 10 m/s east, then you imply the person on the train is moving relative to the surface of Earth at this velocity, and Earth is the reference frame. We can expand our view of the motion of the person on the train and say Earth is spinning in its orbit around the Sun, in which case the motion becomes more complicated. In this case, the solar system is the reference frame. In summary, all discussion of relative motion must define the reference frames involved. We now develop a method to refer to reference frames in relative motion.
Relative Motion in One Dimension
We introduce relative motion in one dimension first, because the velocity vectors simplify to having only two possible directions. Take the example of the person sitting in a train moving east. If we choose east as the positive direction and Earth as the reference frame, then we can write the velocity of the train with respect to the Earth as
→
v
TE
=
10
m
/
s
^
i
east, where the subscripts TE refer to train and Earth. Let’s now say the person gets up out of /her seat and walks toward the back of the train at 2 m/s. This tells us she has a velocity relative to the reference frame of the train. Since the person is walking west, in the negative direction, we write her velocity with respect to the train as
→
v
PT
=
−
2
m
/
s
^
i
.
We can add the two velocity vectors to find the velocity of the person with respect to Earth. This relative velocity is written as
→
v
PE
=
→
v
PT
+
→
v
TE
.
Note the ordering of the subscripts for the various reference frames in (Figure). The subscripts for the coupling reference frame, which is the train, appear consecutively in the right-hand side of the equation. (Figure) shows the correct order of subscripts when forming the vector equation.
Explanation:
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What is an inclined plane?
Inclined plane, simple machine consisting of a sloping surface, used for raising heavy bodies. The force required to move an object up the incline is less than the weight being raised, discounting friction. The steeper the slope, or incline, the more nearly the required force approaches the actual weight.
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