Same situation as before. This time it s a block of mass 1.68 kg sliding with a constant velocity of 3.06 m/s to the north, which collides 100% elastically with a second, stationary block, of mass 4.26 kg, head-on, and rebounds back to the south, eventually colliding 100% elastically with a wall and rebounding northward. It then overtakes the second block, which is still moving north as a result of the first collision. What will be the speeds of the 1.68-kg and 4.26-kg blocks, respectively, after their SECOND collision with one another? 2.41 m/s and 0.68 m/s 1.85 m/s and 2.95 m/s 0.67 m/s and 1.82 m/s 0.95 m/s and 5.22 m/s
Same situation as before. This time it s a block of mass 1.68 kg sliding with a constant velocity of 3.06 m/s to the north, which collides 100% elastically with a second, stationary block, of mass 4.26 kg, head-on, and rebounds back to the south, eventually colliding 100% elastically with a wall and rebounding northward. It then overtakes the second block, which is still moving north as a result of the first collision. What will be the speeds of the 1.68-kg and 4.26-kg blocks, respectively, after their SECOND collision with one another? 2.41 m/s and 0.68 m/s 1.85 m/s and 2.95 m/s 0.67 m/s and 1.82 m/s 0.95 m/s and 5.22 m/s
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Same situation as before. This time it s a block of mass 1.68 kg sliding with a constant velocity of 3.06 m/s to the north, which collides 100% elastically with a second, stationary block, of mass 4.26 kg, head-on, and rebounds back to the south, eventually colliding 100% elastically with a wall and rebounding northward. It then overtakes the second block, which is still moving north as a result of the first collision. What will be the speeds of the 1.68-kg and 4.26-kg blocks, respectively, after their SECOND collision with one another?2.41 m/s and 0.68 m/s1.85 m/s and 2.95 m/s0.67 m/s and 1.82 m/s0.95 m/s and 5.22 m/s
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