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Chapter 5: Q 5 (page 206)

Tarzan swings from a vine. When he is at the bottom of his swing, as shown in Figure 5.63, which is larger in magnitude: the force by the Earth on Tarzan, the force by the vine (a tension force) on Tarzan, or neither (same magnitude)? Explain how you know this.

Short Answer

Expert verified

The vine's tension force is greater than the gravitational force.

Step by step solution

01

Definition of the tension force

Tension force is the force produced when a load is applied in a directed away from one or more ends of a material, usually to the cross-section of the material. A tension force is also referred to as a "pulling" force.

02

Representation of the diagram

As the Tarzan swings, the net force acting on him at the bottom of the swing acts in the direction of the rate of change of momentum, which is upward.

Tarzan's veins exert a stronger upward force than their veins exert a downward force.

Tarzan must use this upward force to drive himself upward.

The free body diagram for the given situation is shown in the below figure,

here $m g$ is the gravitation force acting on the person, $T$ is the tension force offered

by vine, and $F_{c}$ is the centripetal force.

03

Applying the Newtons second law

Write the net force acting on the Tarzan, according to Newton's second law of motion.

$F_{c} = T - m g$

Reorganize the above equation to obtain $T$ .

$T = F_{c} + m g$

Thus, the vine's tension force is greater than the gravitational force.

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Most popular questions from this chapter

You pull with a force of255 N on a rope that is attached to a block of mass 30 kg, and the block slides across the floor at a constant speed of 1.1 m/s. The rope makes an angle $θ = 40^{\circ}$ with the horizontal. Both the force and the velocity of the block are in the xyplane.

(a) Express the tension force exerted by the rope on the block as a vector.

(b) Express the force exerted by the floor on the block as a vector.

An engineer whose mass is 70kgholds onto the outer rim of a rotating space station whose radius is 14mand which takes 30sto make one complete rotation. What is the magnitude of the force the engineer has to exert in order to hold on? What is the magnitude of the net force acting on the engineer?

In the dark in outer space, you observe a glowing ball of known mass 2kgmoving in the xyplane at constant speed in a circle of radius, 6.5 m with the centre of the circle at the origin $((0, 0, 0) m)$ . You can't see what's making it move in a circle. At time t=0 the ball is at location $(- 6, 5, 0, 0) m$ and has velocity $(0, 40, 0) m / s$ .

On your own paper draw a diagram of the situation showing. the circle and showing the position and velocity of the ball at time $r = 0$ . The diagram will help you analyse the situation. Use letters a-j figure 5.75) to answer questions about directions ( +xto the right, +yup).

At time: $t = 0$

(a) What is the direction of the vector $\overset{⇀}{p}$ ?

(b) What are the magnitude and direction localid="1656743973413" $(d | \overset{⇀}{p} | d t) ρ$ ofthe parallel component of $d \overset{⇀}{p} / d t$ ?

(c) What are the magnitude and direction oflocalid="1656744314609" $| \overset{⇀}{p} | d \overset{⇀}{p} / d t$ , the perpendicular component of $d \overset{⇀}{p} / d t$ ?

(d) Even though you can't see what's causing the motion, what can you conclude must be the direction of the vector ${\overset{⇀}{F}}_{n e t}$ ?

(e) Even though you can't see what's causing the motion, what can you conclude must be the vector ${\overset{⇀}{F}}_{n e t}$ ?

(f) You learn that at time, two forces act on the ball, and that at this instant one of these forces is ${\overset{⇀}{F}}_{1} = {196, - 369, 0} N$ . What is the other force?

A helicopter flies to the right (in the +xdirection) at a constant speed of 12m/s, parallel to the surface of the ocean. A 900 kgpackage of supplies is suspended below the helicopter by a cable as shown in Figure the package is also traveling to the right in a straight line, at a constant speed of 12 m/s. The pilot is concerned about whether or not the cable, whose breaking strength is listed at 9300 N , is strong enough to support this package under these circumstances.

(a) Choose the package as the system, and draw a free-body diagram.

(b) What is the magnitude of the tension in the cable supporting the package?

(c) Write the force exerted on the package by the cable as a vector.

(d) What is the magnitude of the force exerted by the air on the package?

(e) Write the force on the package by the air as a vector.

(f) Is the cable in danger of breaking?

A child rides on a playground merry-go-round, from the center. The merry-go-round makes one complete revolution every 5 s. How large is the net force on the child? In what direction does the net force act?

See all solutions

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