Appendix : Categorization Task. Instructions

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Appendix : Categorization Task Instructions Your task is to group the 25 problems below based upon similarity of solution into various groups on the sheet of paper provided. Problems that you consider to be similar should be placed in the same group. You can create as many groups as you wish. The grouping of problems should NOT be in terms of easy problems, medium difficulty problems and difficult problems but rather it should be based upon the features and characteristics of the problems that make them similar. A problem can be placed in more than one group created by you. Please provide a brief explanation for why you placed a set of questions in a particular group. You need NOT solve any problems. Ignore the retarding effects of friction and air resistance unless otherwise stated. 1. Harry Potter and Voldemort are wrestling inside a cart traveling east at a speed of 45 m/s directly toward an abyss. Harry then notices the danger and jumps backward due west off the cart. Ron who stands on safe ground in the back notices that Harry s velocity due west at the jump is 15 m/s relative to the ground. What is the speed of the cart after Harry jumps off it? The mass of the cart is 200 kg, Harry s mass is 60 kg, and Voldemort s mass is 80 kg. 2. Two identical stones, A and B, are shot from a cliff from the same height h and with identical initial speeds v 0. Stone A is shot vertically up, and stone B is shot vertically down (see Figure). Which stone has a larger speed right before it hits the ground? 3. You want to lift a heavy block through a height h by attaching a string of negligible mass to it and pulling so that it moves at a constant speed v. You have the choice of lifting it either by pulling the string vertically upward or along a frictionless inclined plane (see Figure). How much is the work done by the gravitational force in the two cases? 1

4. Two small spheres of putty, A and B, of equal mass, hang from the ceiling on massless strings of equal length. Sphere A is raised to a height h 0 as shown below and released. It collides with sphere B (which is initially at rest); they stick and swing together to a maximum height h f. Find the height h f in terms of h 0. 5. A family decides to create a tire swing in their backyard for their son Ryan. They tie a nylon rope to a branch that is located 16 m above the earth, and adjust it so that the tire swings 1 meter above the ground. To make the ride more exciting, they construct a launch point that is 13 m above the ground, so that they don t have to push Ryan all the time. You are their neighbor, and you are concerned that the ride might not be safe, so you calculate the maximum tension in the rope to see if it will hold. Calculate the maximum tension in the rope, assuming that Ryan (mass 30 kg) starts from rest from his launch pad. Is it greater than the maximum rated value of 2500 N? 6. In the figure below, a horizontal spring with spring constant k 1 = 8 N/m is compressed 20 cm from its equilibrium position by a 4 kg block. Then, the block is released. What would be the maximum compression of a spring (k 2 = 5 N/m) on the inclined plane when the 4 kg block presses against it? Assume that the track is frictionless and the distance from A to B is 50 cm where B is the edge of the uncompressed spring on the inclined plane. k2=5 N/m Uncompressed Spring k1=8 N/m 4 kg 30 o A 50 cm B 2

7. Two blocks are initially at rest on a frictionless horizontal surface. The mass m A of block A is less than the mass m B of block B. You apply the same constant force F and pull the blocks through the same distance d along a straight line as shown below (force F is applied for the entire distance d). Compare the speed of the blocks after you pull them the same distance d. 8. Your friend Dan, who is in a ski resort, competes with his twin brother Sam on who can glide higher with the snowboard. Sam, whose mass is 60 kg, puts his 15 kg snowboard on a level section of the track, 5 meters from a slope (inclined plane). Then, Sam takes a running start and jumps onto the stationary snowboard. Sam and the snowboard glide together till they come to rest at a height of 1.8 m above the starting level. What is the minimum speed at which Dan should run to glide higher than his brother to win the competition? Dan has the same weight as Sam and his snowboard weighs the same as Sam s snowboard. 9. Two identical stones, A and B, are shot from a cliff from the same height h and with identical initial speeds v 0. Stone A is shot at an angle of 30 0 above the horizontal and stone B is shot at an angle of 30 0 below the horizontal. Which stone takes a longer time to hit the ground? 10. At amusement parks, there is a popular ride in which the floor of a rotating cylindrical room falls away, leaving the backs of the riders plastered against the wall. Suppose the radius of the room is 3.3 m and the speed of the wall is 10 m/s when the floor falls away. What is the minimum coefficient of friction that must exist between a rider s back and the wall, if the rider is to remain in place when the floor drops away? 11. Rain starts falling vertically down into a cart (of mass M) with frictionless wheels which is initially moving at a constant speed V on a horizontal surface. The rain drops fall on the car with a speed v and come to rest with respect to the cart after striking it. Find the speed of the cart when m grams of rain water accumulate in the cart. 3

12. In the track shown below, section AB is a quadrant of a circle of 1 m radius. A block is released at A and slides without friction until it reaches point B. The horizontal part is not smooth. If the block comes to rest 3 m from B, what is the coefficient of kinetic friction? A B 3 m 13. Three blocks (m 1 =1 kg, m 2 =2 kg, m 3 =3kg) are in a straight line in contact with each other on a frictionless horizontal table (block with mass m 2 is in the middle). A constant horizontal force F H =3 N is applied to the block with mass m 1. Find the forces exerted on m 1 by m 2 and on m 2 by m 3. 14. A ball is thrown from the top of a 35 m high building with an initial speed of 80 m/s at an angle of 25 0 above the horizontal. Find the time it takes to reach the ground. 15. A cyclist approaches the bottom of a gradual hill at a speed of 15 m/s. The hill is 5 m high, and the cyclist estimates that she is going fast enough to coast up and over it without peddling. Ignoring friction and air resistance, find the speed at which the cyclist crests the hill? Neglect the kinetic energy of the rotating wheels. 16. A slingshot fires a pebble from the top of a building at a speed of 10 m/s. The building is 20 m tall. Ignoring air resistance, find the speed with which the pebble strikes the ground when the pebble is fired (I) horizontally, (II) vertically straight up. 17. The figure below shows two blocks on a frictionless inclined plane with an angle of inclination θ = 40 0 and the two connected to each other via a massless rope. The rope that connects the two blocks goes around a frictionless massless pulley and is connected to a third block as shown. Find the magnitude of the tension force in the rope between blocks with mass M 1 and M 2 and the acceleration of the blocks. M2 M 1 M 3 θ 4

18. Two frictionless inclined planes have the same height but have different angles of inclinations of 45 0 and 60 0 with respect to the horizontal. You slide down from the top which is at a height h above the ground on each inclined planes starting from rest. Find your speed at the bottom of the inclined planes in the two cases. 19. The brakes of your bicycle have failed, and you must choose between slamming into either a haystack or a concrete wall. Explain why hitting a haystack is a wiser choice than hitting a concrete wall. 20. Three balls are launched from the same horizontal level with identical speeds v 0 as shown below. Ball (1) is launched vertically upward, ball (2) at an angle of 60 0, and ball (3) at an angle of 45 0. In order of decreasing speed (fastest first), rank the speed each one attains when it reaches the level of the dashed horizontal line. All three balls have sufficient speed to reach the dashed line. 21. You drop two balls of equal mass, made of rubber and putty, from the same height h above a horizontal surface (see Figure). The rubber ball bounces up after it strikes the surface while the putty ball comes to rest after striking it. Assume that in both cases the velocity of the ball takes the same time t to change from its initial to its final value due to contact with the surface. During time t, which of the average forces F R or F P exerted on the surface by the rubber and putty balls, respectively, is greater? 22. Two frictionless inclined planes have the same height but have different angles of inclinations of 45 0 and 60 0 with respect to the horizontal. You slide down from the top which is at a height h above the ground on each inclined planes starting from rest. Find the time taken to reach the bottom in the two cases. 5

23. Two blocks are initially at rest on a frictionless horizontal surface. The mass m A of block A is less than the mass m B of block B. You apply the same constant force F and pull the blocks through the same distance d along a straight line as shown below (force F is applied for the entire distance d). Rank the time taken to pull the two blocks by the same distance d. 24. You are standing at the top of an incline with your skateboard. After you skate down the incline, you decide to abort, kicking the skateboard out in front of you such that you remain stationary afterwards. How fast is the skateboard travelling with respect to the ground after you have kicked it? Assume that your mass is 60 kg, the mass of the skateboard is 10 kg, and the height of the incline is 10 cm. 25. A friend told a girl that he had heard that if you sit on a scale while riding a roller coaster, the dial on the scale changes all the time. The girl decides to check the story and takes a bathroom scale to the amusement park. There she receives an illustration (see below), depicting the riding track of a roller coaster car along with information on the track (the illustration scale is not accurate). The operator of the ride informs her that the rail track is smooth, the mass of the car is 120 kg, and that the car sets in motion from a rest position at the height of 15 m. He adds that point B is at 5m height and that close to point B the track is part of a circle with a radius of 30 m. Before leaving the house, the girl stepped on the scale which indicated 55 kg (the scale is designed to be used on earth and displays the mass of the object placed on it). In the rollercoaster car the girl sits on the scale. According to your calculation, what will the scale show at point B? 6

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