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Chapter 2: Q6CQ (page 79)

Acceleration is the change in velocity over time. Given this information, is acceleration a vector or a scalar quantity? Explain.

Short Answer

Expert verified

Acceleration is a vector quantity.

Step by step solution

01

Scalar and vector quantity

A quantity defined by only the help of the magnitude is called a scalar quantity. This kind of quantity does not require direction for mentioning.

Examples of scalar quantity are mass, distance, temperature, etc.

A quantity that requires both magnitudes, as well as the direction is called a vector quantity.

Examples of vector quantity are velocity, displacement, force, etc.

02

Acceleration

Acceleration is the ratio of the change in the velocity of the object to that of the time taken to do that change as:

a=v2v1t

Where v1and v2 are the velocities at positions1and2.

T is the time taken to change the velocity.

The unit of acceleration is m/s2.

The acceleration obeys all laws of vector addition, including the parallelogram and triangular laws of vector addition.

As a result of the above reasoning, we may say that acceleration is a vector quantity.

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Most popular questions from this chapter

At the end of a race, a runner decelerates from a velocity of 9.00 m/s at a rate of\({\bf{2}}\;{\bf{m/}}{{\bf{s}}^{\bf{2}}}\). (a) How far does she travel in the next 5.00 s? (b) What is her final velocity? (c) Evaluate the result. Does it make sense?

(a) A world record was set for the men’s 100 mdash in the 2008 Olympic Games in Beijing by Usain Bolt of Jamaica. Bolt “coasted” across the finish line with a time of . If we assume that Bolt accelerated for3.00 sto reach his maximum speed, and maintained that speed for the rest of the race, calculate his maximum speed and his acceleration.

(b) During the same Olympics, Bolt also set the world record in the200 mdash with a time of 19.30 s Using the same assumptions as for the 100 mdash, what was his maximum speed for this race?

Find the following for path B in Figure 2.59:

(a) The distance travelled.

(b) The magnitude of the displacement from start to finish.

(c) The displacement from start to finish.

Tidal friction is slowing the rotation of the Earth. As a result, the orbit of the Moon is increasing in radius at a rate of approximately4 cm/year. Assuming this to be a constant rate, how many years will pass before the radius of the Moon’s orbit increases by3.84×106m(1%) ?

a) Take the slope of the curve in Figure 2.64 to find the jogger’s velocity at t = 2.5 s. (b) Repeat at 7.5 s. These values must be consistent with the graph in Figure 2.65.

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