AP Physics B - Weebly



Work Energy Homework1. A bead of mass m = 5.0 kg is released from rest at point A and slides on the frictionless track shown above. Note that the bead slides, it doesn’t roll, because there’s no friction at all.What approach may be used to approach this problem?Kinematics must be usedThe work-energy principle must be usedEither kinematics or the work-energy principle may be usedJustification:Calculate the bead’s speed at point B.Determine the bead’s speed at point C.Determine the net work done on the bead in moving it from A to C. Now, a similar bead of mass m2 = 2.5 kg is released on the same frictionless slide.Will the speed of the ball at point B be greater than, less than, or equal to the speed you calculated in part (b)?Greater thanLess thanEqual toJustification:Will the net work on the new bead in moving it from A to C be greater than, less than, or equal to the net work you calculated in part (d)?Greater thanLess thanEqual toJustification:2. A body falls through the atmosphere (where air resistance is NOT negligible), gaining 20 J of kinetic energy. How much gravitational potential energy did it lose?20 Jmore than 20 Jless than 20 JEither more or less than 20 J, depending on the object’s mass and how far it fell.3. The weight of an object on the moon is one-sixth its weight on earth. A body moving with a given speed on the moon has kinetic energy equal to __________ it would have if it were moving at the same speed on earth.the kinetic energy1/36 the kinetic energy1/6 the kinetic energy6 times the kinetic energy36 times the kinetic energyQuestions 4-6 A skier of mass m starts from rest at the top of a hill that is inclined at an angle ? to the horizontal, as shown above. The hillside has a length D, and the coefficient of friction between snow and skis is ?4. What is the initial potential energy of the skier?5. What is the friction force on the skier while he is on the incline?6. Define f as the friction force on the skier while he is on the incline. How much work is done on the skier by friction while the skier is still on the incline?7. A block of mass 2.5 kg is pushed 2.2 m along a frictionless horizontal table by a 16 N pushing force directed 25o below the horizontal.Is the work done by the pushing force positive, negative, or zero?PositiveNegativeZeroJustification:Calculate the work done by the pushing force. Calculate the work done by the normal force exerted by the table.Calculate the work done by gravity. (e) Assuming the block started from rest, calculate the speed of the block after 2.2 m.8. Two identical arrows, one with twice the speed of the other, are fired into a bale of hay. Assume that the hay exerts the same friction force on each arrow. Use the work-energy theorem to determine how many times farther into the hay the faster arrow will penetrate. ................
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