Download Chapter 4: Newton`s Laws: Explaining Motion 1. All except one of

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts

Equations of motion wikipedia , lookup

Jerk (physics) wikipedia , lookup

Coriolis force wikipedia , lookup

Newton's theorem of revolving orbits wikipedia , lookup

Fictitious force wikipedia , lookup

Seismometer wikipedia , lookup

Weight wikipedia , lookup

Inertia wikipedia , lookup

Rigid body dynamics wikipedia , lookup

Buoyancy wikipedia , lookup

Force wikipedia , lookup

Centrifugal force wikipedia , lookup

Classical central-force problem wikipedia , lookup

G-force wikipedia , lookup

Gravity wikipedia , lookup

Centripetal force wikipedia , lookup

Newton's laws of motion wikipedia , lookup

Transcript
Chapter 4: Newton’s Laws: Explaining Motion
1. All except one of the following require the application of a net force. Which one is the
exception?
A. to change an object from a state of rest to a state of motion.
B. to maintain an object in motion at a constant velocity.
C. to change an object’s speed without changing its direction of motion.
D. to maintain an object in uniform circular motion.
E. to change an object’s direction of motion without changing its speed.
Answer: B
2. A common experience is to find that a steady pull is required to keep an object moving, even
on a level surface with friction present. Analyzing this experience in light of the laws of motion,
the accepted conclusion is that
A. the laws of motion do not apply where there is friction.
B. the object is really accelerating but it is not apparent.
C. a frictional force exactly opposes your pull and the first law applies.
D. your pull is canceled by the third law reaction force.
E. the laws of motion only apply when you start pulling or stop.
Answer: C
3. The starship Enterprise locks onto an alien ship (whose mass is much greater than the
Enterprise’s mass) with its tractor beam (think of this as a futuristic rope) and starts to pull the
alien ship toward it. Neither ship has its propulsion engines running. Which ship has greater
acceleration towards the other?
A. They both move with equal acceleration.
B. The Enterprise.
C. The alien ship.
D. Neither ship can move because there is no friction in outer space.
Answer: B
4. The force that accelerates a car on a level road is exerted by which object?
A. Motor.
B. Gears.
C. Rear axle.
D. Drive shaft.
E. The road.
Answer: E
5. A 100-pound sack of potatoes falls from an airplane. As the velocity of the falling sack
increases, so does the air resistance on it. When the air resistance equals 100 pounds, the
acceleration of the sack will be
A. infinite.
B. 9.8 m/s2.
C. 9.8 m/s.
D. zero.
Answer: D
6. A single constant 10-pound force F1 acts on a body, causing it to accelerate. Then, while F1
continues to act, a second constant force F2 is applied to the body, which comes to a momentary
stop. The magnitude of F2 is
A. zero.
B. a bit less than 10 pounds.
C. exactly 10 pounds.
D. larger than 10 pounds.
E. not enough information to tell.
Answer: D
7. The frictional force, due to air resistance, acting on an object is always
A. in the direction of the objects motion.
B. in the opposite direction to the objects motion.
C. greater than the net force.
D. in the upward direction.
E. smaller than object’s weight
Answer: B
8. An elevator is being lifted upward at a constant speed by a steel cable. All frictional forces are
neglected. In this situation, forces on the elevator are such that
A. the upward force by the cable is greater than the downward force of gravity.
B. the upward force by the cable is equal to the downward force of gravity.
C. the upward force by the cable is smaller than the downward force of gravity.
D. none of the above. (The elevator goes up because the cable is being shortened, not because an
upward force is exerted on the elevator by the cable.)
Answer: B
9. The erroneous idea that an object needs a force on it to keep moving even at constant velocity
was held by
A. Galileo.
B. Aristotle.
C. Newton.
Answer: B
10. Two bodies have quite different masses, but the net force applied to each of them is the
same. The acceleration of
A. each body is the same.
B. the less massive body is larger.
C. the more massive body is larger.
Answer: B
11. A body sliding on a table is observed to gradually slow down. The correct statement is that
the body slows down because
A. no force acts on the body.
B. no net force acts on the body.
C. a net force acts on the body.
D. it is the nature of the body to slow down by itself.
Answer: C
12. A car rounds a curve while maintaining constant speed. The correct statement is:
A. The acceleration of the car is zero.
B. The velocity of the car is zero.
C. No net force acts on the car.
D. The velocity of the car is constant.
E. A net force acts upon the car.
Answer: E
13. Two blocks of equal mass are connected by a string. The system is accelerated across a
smooth horizontal surface by a force supplied by a rubber band connected to the leading block.
The tension in the connecting string will be
A. the same as the force pulling the leading block.
B. less than the force pulling the leading block.
C. greater than the force pulling the leading block.
D. zero.
Answer: B
14. The acceleration of gravity on the moon’s surface is about 1/6 of that on the Earth’s surface.
An object on the Earth is to be taken to the Moon. We can state that, compared to the Earth,
A. the object’s mass will be the same on the Moon.
B. the object’s mass will be greater on the Moon.
C. the object’s mass will be less on the Moon.
D. the object’s weight will be the same on the Moon.
E. the object’s weight will be greater on the Moon.
Answer: A
15. A block, moving on a frictionless horizontal surface on Earth, requires a force if it is to be
stopped. Now suppose that the same block, moving with the same speed on a frictionless
horizontal surface on the Moon where gravity is less, is to be stopped in the same time. We can
say that, compared to the Earth,
A. less force is required to stop the block on the Moon.
B. greater force is required to stop the block on the Moon.
C. the force required would be the same.
D. the block could not be stopped.
Answer: C
16. A book weighing 10 N is held at rest in the palm of the hand. The reaction to the force of the
hand on the book is a force of
A. 10 N exerted by the Earth on the book.
B. 10 N exerted by the book on the Earth.
C. 10 N exerted by the book on the hand.
D. 0 N.
Answer: C
17. Suppose one’s hand exerts a force of 12 N upward on a book weighing 10 N. The reaction to
the force of the hand on the book is a force of
A. 10 N exerted by the Earth on the book.
B. 10 N exerted by the book on the Earth.
C. 12 N exerted by the book on the hand.
D. 10 N exerted by the book on the hand.
E. 2 N exerted by the book on the hand.
Answer: C
18. A block of mass 5.0 kg is acted upon by a single force, producing an acceleration of 2.0
m/s². The force has a value of
A. 5.0 N.
B. 10 N.
C. 2.5 N.
D. 0.5 N.
Answer: B
19. A 5.0 kg block on a smooth horizontal surface is acted upon by two forces: a horizontal
force of 40 N acting to the right and a horizontal force of 10 N to the left. The acceleration of the
block will be:
A. 6.0 m/s2 to the right
B. 10.0 m/s2 to the right
C. 8.0 m/s2 to the right
D. 5.0 m/s2 to the right.
Answer: A
20. A crate is acted upon by a net force of 100 N. An acceleration of 5.0 m/s2 results. The
weight of the crate is
A. 20 N.
B. 9.8 N.
C. 98 N.
D. 196 N.
E. 40 N.
Answer: D
21. A parachutist jumping from an airplane reaches a terminal velocity when the force of air
resistance is 490 N. The mass of the parachutist is
A. 490 kg.
B. 9.8 kg.
C. 40 kg.
D. 50 kg.
E. 80 kg.
Answer: D
22. An elevator of mass 500 kg is caused to accelerate upward at 4.0 m/s2 by a force in the
cable. What is the force exerted by the cable?
A. 2,000 N
B. 4,900 N
C. 6,900 N
D. 2,900 N
E. zero
Answer: C
23. A net horizontal force of 200 N acts on a 50-kg cart, which is free to roll on a level surface.
2
A. The cart accelerates at 4 m/s .
2
B. The cart accelerates at 10 m/s .
2
C. The cart accelerates at 10000 m/s .
2
D. The cart accelerates at 0.25 m/s .
E. The cart does not accelerate because it pushes back on the person with a force of 200 N.
Answer: A
24. A child, whose weight is 150 newtons, lifts a pumpkin from the ground with a force of 50
newtons. The force the pumpkin exerts on the child is
A. zero.
B. greater than zero but less than 50 newtons.
C. 50 newtons.
D. more than 50 newtons.
Answer: C
2
25. A certain force causes a 50-kg person to accelerate at 1.0 m/s . The same force applied to a
75-kg person would cause
A. a smaller acceleration.
B. the same acceleration.
C. a greater acceleration.
Answer: A
26. You stand on a scale to measure your weight. The reaction to the force the Earth exerts on
you is
A. the force the scales exert on you.
B. the force you exert on the Earth.
C. the force you exert on the scales.
D. the force the scales exerts on the Earth.
E. the force the Earth exerts on the scales.
Answer: B
27. The surface gravity of Mars is 3.7 m/s2. If a person with mass of 100 kg were parachuting on
Mars, what would be the force exerted by air resistance at terminal velocity?
A. 100 N
B. 370 N
C. 490 N
D. 980 N
Answer: B
28. A dog weighs 250 N. What is his approximate weight in pounds (lb)?
A. 250 lb.
B. 100 lb.
C. 55 lb.
D. 32 lb.
E. 25 lb.
Answer: C
29. The force exerted on a body by moving air is proportional to the projected area of the body.
Which falling body will have the larger terminal velocity, a flying squirrel with its wing
membranes extended or a grey squirrel with the same mass?
A. The grey squirrel.
B. The flying squirrel.
C. Both will have same terminal velocity.
Answer: A
30. Your weight is 100 lb. Suppose you are standing on a scale in an elevator moving up with a
constant speed of 3 m/s. What would be the reading on the scale?
A. 100 lb.
B. 130 lb.
C. 70 lb.
D. 30 lb.
E. 0.
Answer: A
31. Your mass is 50 kg. Suppose you are standing on a scale in an elevator which starts moving
up and increases its speed at the rate of 2 m/s every second. What would be the reading on the
scale?
A. 590 N
B. 490 N
C. 390 N
D. 100 N
E. 0
Answer: A
32. Your mass is 50 kg. Suppose you are standing on a scale in an elevator, that is approaching a
top floor and decreasing its speed at the rate of 2 m/s every second. What would be a reading on
the scale?
A. 590 N
B. 490 N
C. 390 N
D. 100 N
E. 0.
Answer: C
33. Newton’s Law states that no force is required to keep a moving object in motion. Why, then,
do you have to pedal continuously to ride a bicycle along a flat road?
Answer: frictional force
34. A body on the Earth has a mass of 20 kg. The same body in outer space will have a mass of
____________ kg.
Answer: 20
35. A light body and a heavy body are both given identical accelerations. The body acted upon
by the larger force is the ________________ body.
Answer: heavy
36. A light body sliding on a smooth horizontal surface collides with a heavy body. During the
instant of contact the force exerted by the light body on the heavy body is ___________ (equal
to, greater than, less than) the force exerted by the heavy body on the light body.
Answer: equal to
37. A ball hangs at rest from a string attached to the ceiling. The string pulls up on the ball with
a force equal to its weight. The reaction to the upward force of the string on the ball is a
___________ (direction) force exerted by the __________ on the_______________.
Answer: downward, ball, string
38. A body of mass 10 kg is pushed across a horizontal table by a force of 100 N. The observed
acceleration is 4.0 m/s2. The force of friction opposing the motion is _______________ N.
Answer: 60
39. The net force acting on a body is in the direction of the ________________ of the body.
Answer: acceleration