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Chapter 2: Q 2-3 (page 81)

You observe three carts moving to the left. Cart A moves to the left at nearly constant speed. Cart B moves to the left, gradually speeding up. Cart C moves to the left, gradually slowing down. Which cart or carts, if any, experience a net force to the left?

Short Answer

Expert verified

Cart B experiences a net force to the left.

Step by step solution

01

Definition of Net force

The net force, also known as the resultant force, is the sum of all forces acting on an item at the same time.

02

Find that when there is a net force to the left, whichever cart or carts are it?


  • Cart 'A' accelerates to the left at a near-constant rate.

  • Cart 'B' accelerates as it advances to the left.

  • Cart 鈥楥' moves to the left, swooping down gradually.

  • The net force acting on an object moving at constant speed is zero, hence there is no net force acting on cart 'A' toward the left.

  • When the item's velocity and force are in the same direction, the object will accelerate.

  • Because the Cart B is speeding up and travelling to the left, there is a net force operating on the cart 'B' to the left.

  • When the velocity and force directions are opposite, the item slows down.

  • Because the cart C is slowing down and travelling to the left, there is a net force operating on the cart 'C' to the right.

Thus, the Cart 鈥楤鈥 is the cart that is being pushed to the left by the net force.

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Most popular questions from this chapter

In a crash test, a truck with mass 2500kgtraveling at 24m/ssmashes head-on into a concrete wall without rebounding. The front end crumples so much that the truck is 0.72mshorter than before,

(a) What is the average speed of the truck during the collision (that is, during the interval between first contact with the wall and coming to a stop)?

(b) About how long does the collision last? (That is, how long is the interval between first contact with the wall and coming to a stop?)

(c) What is the magnitude of the average force exerted by the wall on the truck during the collision?

(d) It is interesting to compare this force to the weight of the tuck. Calculate the ratio of the force of the wall to the gravitational forceon the truck. This large ratio shows why a collision is so damaging.

(e) What approximations did you make in your analysis?

cart rolls with low friction on a track. A fan is mounted on the cart, and when the fan is turned on, there is a constant force acting on the cart. Three different experiments are performed:

(a) Fan off: The cart is originally at rest. You give it a brief push, and it coasts a long distance along the track in the +x direction, slowly coming to a stop.

(b) Fan forward: The fan is turned on, and you hold the cart stationary. You then take your hand away, and the cart moves forward, in the +x direction. After traveling a long distance along the track, you quickly stop and hold the cart.

(c) Fan backward: The fan is turned on facing the 鈥渨rong鈥 way, and you hold the cart stationary. You give it a brief push, and the cart moves forward, in the +x direction, slowing down and then turning around, returning to the starting position, where you quickly stop and hold the cart. Figure 2.57 displays four graphs of px (numbered 1鈥4), the x component of momentum, vs. time. The graphs start when the cart is at rest, and end when the cart is again at rest. Match the experiment with the correct graph.

A bar magnet whose magnetic dipole moment is<4,0,1.5>A.m2is suspended from a thread in a region where external coils apply a magnetic field of<0.8,0,0>T. What is the vector torque that acts on the bar magnet?

SLAC, the Standford Linear Accelerator Center, located at Stanford University in Palo Alto California, accelerates electrons through a vacuum tube 2 mi long (it can be seen from an overpass of the Junipero Serra freeway that goes right over the accelerator). Electrons that are initially at rest are subjected to a continuous force of 2脳10-12 newton along the entire length of 2 mi (1 mi is 1.6 km) and reach speeds very near the speed of light. (a) Determine how much time is required to increase the electron's speed from 0.93c to 0.99c. (that is the quantity role="math" localid="1657119037340" ||/c increases from0.93c to 0.99c .) (b) Approximately how far does the electron go in this time? What is approximate about your result?

For each graph of vx vs. t numbered 1-6 in Figure, choose the letter (a-i) corresponding to the appropriate description of motion of a fan cart moving along a track. Not all descriptions will be used. Assume the usual coordinate system (+x to the right, +y up. +z out of the page).

(a) A cart moves to the left, gradually slowing down.

(b) A cart moves to the right, gradually speeding up.

(c) A cart moves to the left at a constant speed.

(d) A cart moves to the left, gradually slowing down, stops, and moves to the right, speeding up.

(e) A cart remains stationary and does not move.

(f) A cart moves to the right, gradually slowing down,

(g) A cart moves to the right. gradually slowing down, stops, and moves to the left, speeding up.

(h) A cart moves to the left, gradually speeding up.

(i) A cart moves to the right at a constant speed.
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