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Name: Date: Pd: (You may wish to visit www.physicsclassroom.com for additional reading material) Newton's Laws Part A: Mass, Inertia, & Weight (Review from Mon.) 1. Which of the following statements are true of inertia? List all that apply. a. Inertia is a force. b. Inertia is a force which keeps stationary objects at rest and moving objects in motion at constant velocity. c. Inertia is a force which brings all objects to a rest position. d. All objects have inertia. e. A more massive object has more inertia than a less massive object. f. Fast-moving objects have more inertia than slow-moving objects. g. An object would not have any inertia in a gravity-free environment (if there is such a place). h. Inertia is the tendency of all objects to resist motion and ultimately stop. i. In a gravity-free environment (should there be one), a person with a lot of inertia would have the same ability to make a turn as a person with a small amount of inertia. 2. Which of the following statements are true of the quantity mass? List all that apply. a. The mass of an object is dependent upon the value of the acceleration of gravity. b. The standard metric unit of mass is the kilogram. c. Mass depends on how much stuff is present in an object. d. The mass of an object is variable and dependent upon its location. e. An object would have more mass on Mount Everest than the same object in the middle of Lake Michigan. f. People in Weight Watcher's are really concerned about their mass (they're mass watchers). g. The mass of an object can be measured in pounds. h. If all other variables are equal, then an object with a greater mass would have a more difficult time accelerating. i. If all other variables are equal, then it would require less exerted force to stop a less massive object than to stop a more massive object. j. The mass of an object is mathematically related to the weight of the object. 3. Which of the following statements are true of the quantity weight? List all that apply. a. The weight of an object is dependent upon the value of the acceleration of gravity. b. Weight refers to a force experienced by an object. c. The weight of an object would be less on the Moon than on the Earth. d. A person could reduce their weight significantly by taking an airplane ride to the top of Mount Everest. e. Two objects of the same mass can weigh differently. f. To gain weight, one must put on more mass. g. The weight of an object can be measured in kilograms. h. The weight of an object is equal to the force of gravity acting upon the object. Part B: Newton’s Laws and Free Body Diagrams 4. Which of the following free body diagrams depict an object moving to the right with a constant speed? Circle all that apply. 5. According to Newton's third law, every force is accompanied by an equal and opposite reaction force. The reason that these forces do not cancel each other is ____. a. the action force acts for a longer time period b. the two forces are not always in the same direction c. one of the two forces is greater than the other d. the two forces act upon different objects; only forces on the same object can balance each other. e. ... nonsense! They do cancel each other. Objects accelerate because of the presence of a third force. 6. Construct free-body diagrams for the following physical situations at the instant in time for which they are described. As is always done in free-body diagrams, label the forces according to type and draw the arrows such that their length reflects the magnitude of the force. Neglect Air Resistance. a. A book is at rest on top of a table. b. A book is being pushed to the right across a table surface with a constant velocity. c. A book is being pushed to the right across a table surface and accelerating in the direction of the push. d. A student is pushing lightly e. A car on a horizontal road slows f. A ball is dropped from rest from upon a large box in an attempt to down as the brakes are applied. the top of a building. push it to the right across the floor, but the box fails to move due to friction. g. Two ropes attach to a sign at 45 h. Shortly after being kicked, a degree angles. (Draw the FBD for soccer ball is flying through the air the sign) up and to the right. i. Several seconds after being kicked, a soccer ball is falling through the air down and to the right. Part C: Force-Mass-Acceleration Relationships Construct free-body diagrams for the following objects and correctly label all forces. Use the approximation that g = ~10 m/s2. Determine the Net Force and Acceleration using Newton’s Second Law. 7. An 8-N force is applied to a 2-kg box to accelerate it to the right across a table. The box encounters a force of friction of 5 N. FBD Net Force Acceleration 8. A 5.20-N force is applied to a 1.00 kg object to accelerate it rightwards across a surface. The coefficient of Kinetic Friction is 0.25. FBD Net Force Acceleration 9. A water skier is being towed due North by a boat. The tow cable is under 40 N of tension force. Suddenly a strong gust of wind blows the skier due East with a force 50 N. FBD Net Force Acceleration 10. After its most recent delivery, the infamous stork announces the good news. If the sign has a mass of 10.0 kg, then what is the tensional force in each cable?