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In a one-dimensional collision, the energy loss that can occur ranges from none at all to a maximum when two objects stick together. When the
In a one-dimensional collision, the energy loss that can occur ranges from none at all to a maximum when two objects stick together. When the two objects do not stick together, there is still a range of possible energy loss, but it is somewhat restricted. In this application, you will determine the range of energy losses for a 20 collision. This problem will investigate what happens when a rock of mass 400 g is thrown from a distance at block of mass 4.25 kg that is placed precariously on a pole. The rock proceeds to hit the block at a speed of 1.9 m/s moving in a direction diagonally downward. In particular, you will find the range angles that the block can fall after the collision.First of all, how much energy is in each of the objects after the collision? (g) How much energy remains in the rock? K = (h) How much energy goes into the block? Kb = (i) How much energy was lost in the collosion? AKI = Which is indeed less than in the totally inelastic case. Next, find the change in the angle from the dot product. (j) Compute the dot product between the directions ofvp and Vb. Vo * Vb = (k) What is that in terms of an angular change? (Use deg as the units for degrees.) 8 =
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