Ch. 12 Review Game

1. Ch. 12 Review Game Review force, Newton’s Laws of Motion, and universal forces.

2. Short Answer • What is the direction of the net force on a falling sky diver before she reaches terminal velocity? After she is falling at terminal velocity? - down, there is no net force on the sky diver • How can you double the acceleration of an object if you cannot alter the object’s mass? - Double the net force acting on the object • Why don’t action-reaction forces cancel each other? - The action force and the reaction force act on different objects. For forces to cancel, they must act on the same object • One end of a bar magnet attracts one end of a second bar magnet. What will happen if the second bar magnet is reversed? - The ends of the bar magnet will now repel each other • What is the primary cause of Earth’s ocean tides? - The gravitational pull of the moon

3. Problem • A tow truck exerts a net horizontal force of 1050 N on an 760-kilogram car. What is the acceleration of the car during this time? Show your work. (Acceleration =net force/mass) 1050N/760kg= 1.4kgm/s2= 1.4m/s2 kg • The mass of a newborn baby is 3.5 kilograms. What is the baby’s weight? (The acceleration due to gravity at Earth’s surface is 9.8 m/s2.) Show your work. (Weight = Mass x Acceleration due to gravity) 3.5kg x 9.8m/s2=34.3kg x m/s2 = 34.3N • A 38-kilogram canoe broke free of its dock and is now floating downriver at a speed of 2.2 m/s. What is the canoe’s momentum? Show your work. (Momentum = Mass Velocity) 38kg x 2.2m/s= 83.6 kgx m/s, downriver • A small engine causes a 0.3-kg model airplane to accelerate at a rate of 11 m/s2. What is the net force on the model airplane? Show your work (a = F/m ) 0.3kg x 11 m/s2= 3.3 kg x m/s2 = 3.3 N

4. Essay • Why does a biker have to pedal harder to travel at a constant speed into the wind on a windy day compared to traveling on the same road at the same speed on a calm day? - On both the calm and windy days, the net force on the biker is zero because the biker is traveling at constant speed. On a calm day, the biker must pedal so that the forward-directed force applied to the bike balances the forces of friction opposing the forward motion. The friction forces primarily take the form rolling friction and fluid friction. On a windy day, the fluid friction force is much greater, so the rider must pedal harder to maintain the same constant speed.

5. Other Figure 12-2 • Interpreting Graphics In Figure 12-2, what is the direction of the centripetal force acting on the satellite at this location in its orbit? D • Applying Concepts The centripetal force acting on the satellite in Figure 12-2 is one of a pair of action-reaction forces. On what object is the other force in the pair acting? Earth

6. Other Figure 12-3 • Interpreting Graphics In Figure 12-3, what is the momentum of each skater at Time 1? 0 kg x m/s • Comparing and Contrasting In Figure 12-3, compare the size and direction of the momentums of both skaters immediately after the push shown at Time 2. Equal size, opposite direction • Applying Concepts Suppose that the skaters repeat the demonstration in Figure 12-3 again. This time Skater B is holding a 10-kilogram mass. If Skater A pushes exactly as he did the first time, will Skater A’s motion be different this time? Explain your answer. No; Skater A is exerting the same force on Skater B as before and so Skater B is exerting the same force on Skater A as before. The result is that Skater’s A motion will be the same.

7. Multiple Choice ____ 1. The SI unit of force is the a. joule. c. meter. b. kilogram. d. newton. d. newton ____ 2. Which of the following relationships is correct? a. 1 N = 1 kg c. 1 N = 1 kg·m/s b. 1 N = 1 kg·m d. 1 N = 1 kg·m/s2 d. 1 N = 1 kg·m/s2 ____ 3. When an unbalanced force acts on an object, a. the object’s motion does not change. c. the weight of the object decreases. b. the object accelerates. d. the inertia of the object increases. b. the object accelerates. ____ 4. When a pair of balanced forces acts on an object, the net force that results is a. greater in size than both forces combined. b. greater in size than one of the forces. c. equal in size to one of the forces. d. equal to zero. d. equal to zero. ____ 5. What kind of friction occurs as a fish swims through water? a. Fluid c. sliding b. Rolling d. static a. Fluid

8. ____ 6. As you push a cereal box across a tabletop, the sliding friction acting on the cereal box a. acts in the direction of motion. b. equals the weight of the box. c. is usually greater than static friction. d. acts in the direction opposite of motion. d. acts in the direction opposite of motion. ____ 7. The forces acting on a falling leaf are a. air resistance and fluid friction. c. gravity and static friction. b. gravity and air resistance. d. weight and rolling friction b. gravity and air resistance. ____ 8. Figure 12-1 shows the motion of three balls. The curved paths followed by balls B and C are examples of a. centripetal motion. c. linear motion. b. constant motion. d. projectile motion. d. projectile motion. ____ 9. Projectile motion is caused by • the downward force of gravity. b. an initial forward velocity. c. a final vertical velocity. d. the downward force of gravity and an initial forward velocity. d. the downward force of gravity and an initial forward velocity. ____ 10. The property of matter that resists changes in motion is called a. friction. c. inertia. b. gravity. d. weight. c. inertia.

9. ____ 11. An orange might roll off your cafeteria tray when you stop suddenly because of a. the balanced forces acting on the orange. b. the centripetal force acting on the orange. c. the friction forces acting on the orange. d. the orange’s inertia. d. the orange’s inertia. ____ 12. According to Newton’s second law of motion, the acceleration of an object equals the net force acting on the object divided by the object’s a. mass. c. velocity. b. momentum. d. weight. a. mass. ____ 13. If a force of 12 N is applied to an object with a mass of 2 kg, the object will accelerate at a.0.17 m/s2. c.6 m/s2. b.24 m/s2. d.12 m/s2. c.6 m/s2. ____ 14. Your weight equals your a. mass. b. mass divided by the net force acting on you. c. mass times the acceleration due to gravity. d. mass times your speed. c. mass times the acceleration due to gravity. ____ 15. Newton’s third law of motion describes a. action and reaction forces. c. centripetal forces. b. balanced forces. d.net force. a. action and reaction forces.

10. ____ 16. In which of the following are action and reaction forces involved? a. when a tennis racket strikes a tennis ball b. when stepping from a curb c. when rowing a boat d. all of the above d. all of the above ____ 17. What is the momentum of a 50-kilogram ice skater gliding across the ice at a speed of 5 m/s? a.10 c.50 kg b.500 kg·m/s d.250 kg·m/s d.250 kg·m/s ____ 18. What force is responsible for the repulsion between two positively-charged particles? a. Centripetal c. gravitational b. Electric d. nuclear b. Electric ____ 19. Which universal force acts only on the protons and neutrons in a nucleus? a. Electric c. magnetic b. Gravitational d. strong nuclear d. strong nuclear ____ 20. With which of the following is the weak nuclear force associated? a. Lightning c. ocean tides b. nuclear decay d. static cling b. nuclear decay

11. ____ 21. Which of the following universal forces is the weakest? a. Electric c. magnetic b. Gravitational d. strong nuclear b. Gravitational ____ 22. As an astronaut travels far away from Earth, her weight a. decreases because gravity decreases. b. decreases because her mass decreases. c. Increases because gravity increases. d. remains the same because her mass remains the same. a. decreases because gravity decreases. ____ 23. The gravitational force between two objects increases as mass a. decreases or distance decreases. c. Increases or distance decreases. b. decreases or distance increases. d. increases or distance increases. c. Increases or distance decreases. ____ 24. The force that keeps an object moving in a circle is called a. centripetal force. c. Inertia. b. fluid friction. d. momentum. a. centripetal force. ____ 25. The centripetal force acting on a satellite in orbit a. acts as an unbalanced force on the satellite. b. changes the direction of the satellite. c. is a center-directed force. d. all of the above d. all of the above

12. Study your Vocab words!!!!!