At a speed of 2.5 m/s, the 100-pound tackler meets the 86-pound halfback (and holds on to him). Immediately following the collision, what will be their respective speeds in relation to one another?
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At a speed of 2.5 m/s, the 100-pound tackler meets the 86-pound halfback (and holds on to him).
Immediately following the collision, what will be their respective speeds in relation to one another?
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- Suppose two steel balls are taken into Earth orbit and collide in the vacuum of One ball is initially stationary (relative to the spacecraft) and the other is given an initial velocity. Is momentum conserved in this collision? space. 1ligion an elastic collision?Try this with your friends. Hold a dollar bill so that the midpoint hangs between a friend’s fingers and challenge him to catch it by snapping his fingers shut when you release it. He won’t be able to catch it! Explanation: From , the bill will fall a distance of 8 centimeters (half the length of the bill) in a time of 1/8 second, but the time required for the necessary impulses to travel from his eye to his brain to his fingers is at least 1/7 second.A railroad car coasting towards the right at a speed of 5 m/s runs into a set of three other cars initially at rest and couples with them. All four cars are identical. (a) What is the speed of the coupled set after the impact? (b) Assume that the coupled set continues to move at the same speed until it runs into bumpers at the end of the track. The bumpers bring the convoy to rest in 0.2 s. What is the average force exerted by the track bumpers? Each car has a mass of 20,000 kg.
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- Initially, ball 1 rests on an incline of height h, and ball 2 rests on an incline of height h/2 as shown in the figure below. They are released from rest simultaneously and collide elastically in the trough of the track. If m₂ = 5m₁, m₁ = 0.043 kg, and h = 0.34 m, what is the velocity of each ball after the collision? (Assume the balls slide but do not roll. Indicate the direction with the sign of your answer. Positive is to the right, and negative is to the left. Due to the nature of this problem, do not use rounded intermediate values in your calculations including answers submitted in WebAssign.) x V₁ = Your response differs from the correct answer by more than 10%. Double check your calculations. m/s x V₂f = Your response differs from the correct answer by more than 100%. m/s Need Help? Read It Submit Answer m₁ m₂A train engine’s mass is 22500 kg and is moving at 25 m/sec, and hits an empty train car with a mass of 7500 kg. What velocity would the empty train car have after impact? (no friction in this system, of course)Two 3011 kg train cars toward each other (Car A at 0.8 m/s, Car B at -2.13 m/s) on a level track. After they collide and couple together, what is the final velocity of the two-car object? Your answer should be in units of m/s but your should only submit the number for your answer (and don't forget to check your signs
- Two blocks are sliding on a horizontal frictionless surface with velocities shown in the sketch. Block A has mass 0.500 kg and block B has mass 0.650 kg. The two blocks have a perfectly inelastic collision and stick together after the collision. (a) What is the speed of the combined blocks after the collision? (b) What angle does the velocity of the combined blocks make with the +x -axis after the collision? (in ° counterclockwise from the +x-axis)(c) What is the magnitude of the decrease in kinetic energy of the system of two blocks due to the collision?On a horizontal frictionless table, masses A and B (3 kg, 5 kg) slide to the right and left, respectively. They have speeds of 3 m/s and 1 m/s, respectively. The two masses collide, and bounce off each other. After the collision, they travel in opposite directions at speeds of 1.5 m/s and 1.700 m/s, respectively. (Note:In this problem, please use + dir = right, - dir = left, to indicate direction.) a.) Calculate A's momentum: before collision: kg-m/s after collision: kg-m/s Make sure you understand why it is NOT conserved. b.) Calculate B's momentum: before collision: kg-m/s after collision: kg-m/s Make sure you understand why it is NOT conserved. c.) Calculate the A+B system's momentum: before collision: kg-m/s after collision: kg-m/s Make sure you understand why it IS conserved. d.) Calculate the kinetic energy of the A+B system: before collision: after collision: J What kind of collision is this v ---Select--- elastic somewhat inelastic Submit Answer completely inelastic(ODC-1) Consider two hockey pucks, each with mass 1.25 kg, on frictionless ice. Puck A is initially moving due east at 2.35 m/s towards puck B, which is initially stationary. The pucks. collide head on. After the collision, puck B moves east with a speed of 1.45 m/s. (a) What is puck A's speed (in m/s) after collision? What direction is it moving in? (b) How much kinetic energy (in Joules) is lost from the system during the collision? (c) If the collision were completely elastic, what wold the final speed and direction of each puck be? (CM-1) Calculate the (x v) position of the center of mass of the 4 particles shown below