9.2 Impulse and collisions (Page 7/10)

University physics volume 1 Page 7 / 10

Newton’s second law of motion in terms of momentum

The net external force on a system is equal to the rate of change of the momentum of that system caused by the force:

\vec{F} = \frac{d \vec{p}}{d t} .

Although [link] allows for changing mass, as we will see in Rocket Propulsion , the relationship between momentum and force remains useful when the mass of the system is constant, as in the following example.

Calculating force: venus williams’ tennis serve

During the 2007 French Open, Venus Williams hit the fastest recorded serve in a premier women’s match, reaching a speed of 58 m/s (209 km/h). What is the average force exerted on the 0.057-kg tennis ball by Venus Williams’ racquet? Assume that the ball’s speed just after impact is 58 m/s, as shown in [link] , that the initial horizontal component of the velocity before impact is negligible, and that the ball remained in contact with the racquet for 5.0 ms.

A tennis ball leaves the racket with velocity v sub f equals 58 meters per second i hat which points horizontally to the right. — The final velocity of the tennis ball is ${\vec{v}}_{f} = (58 m/s) \hat{i}$ .

Strategy

This problem involves only one dimension because the ball starts from having no horizontal velocity component before impact. Newton’s second law stated in terms of momentum is then written as

\vec{F} = \frac{d \vec{p}}{d t} .

As noted above, when mass is constant, the change in momentum is given by

Δ p = m Δ v = m (v_{f} - v_{i})

where we have used scalars because this problem involves only one dimension. In this example, the velocity just after impact and the time interval are given; thus, once $Δ p$ is calculated, we can use $F = \frac{Δ p}{Δ t}$ to find the force.

Solution

To determine the change in momentum, insert the values for the initial and final velocities into the equation above:

\begin{matrix} Δ p & = m (v_{f} - v_{i}) \\ = (0.057 kg) (58 m/s - 0 m/s) \\ = 3.3 \frac{kg \cdot m}{s} . \end{matrix}

Now the magnitude of the net external force can be determined by using

F = \frac{Δ p}{Δ t} = \frac{3.3 \frac{kg \cdot m}{s}}{5.0 \times 10^{−3} s} = 6.6 \times 10^{2} N.

where we have retained only two significant figures in the final step.

Significance

This quantity was the average force exerted by Venus Williams’ racquet on the tennis ball during its brief impact (note that the ball also experienced the 0.57-N force of gravity, but that force was not due to the racquet). This problem could also be solved by first finding the acceleration and then using

F = m a

, but one additional step would be required compared with the strategy used in this example.

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Summary

When a force is applied on an object for some amount of time, the object experiences an impulse.
This impulse is equal to the object’s change of momentum.
Newton’s second law in terms of momentum states that the net force applied to a system equals the rate of change of the momentum that the force causes.

Conceptual questions

Is it possible for a small force to produce a larger impulse on a given object than a large force? Explain.

Yes; impulse is the force applied multiplied by the time during which it is applied ( $J = F Δ t$ ), so if a small force acts for a long time, it may result in a larger impulse than a large force acting for a small time.

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Why is a 10-m fall onto concrete far more dangerous than a 10-m fall onto water?

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What external force is responsible for changing the momentum of a car moving along a horizontal road?

By friction, the road exerts a horizontal force on the tires of the car, which changes the momentum of the car.

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Source: OpenStax, University physics volume 1. OpenStax CNX. Sep 19, 2016 Download for free at http://cnx.org/content/col12031/1.5

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