A 92 kg boulder , moving at 5.0 m/s attempts to pass directly across the adit of a mine. Just as the boulder reaches the end of the adit, it was met head-on in midair by two 75 kg miners, both moving in the direction opposite the boulder. One is moving 2.0 m/s, the other at 3.0 m/s . They all become entangled as one mass. What is their velocity after the collision? 18. What is the momentum of a 18 kg object traveling at a constant velocity that has 295 J of kinetic energy?
A 92 kg boulder , moving at 5.0 m/s attempts to pass directly across the adit of a mine. Just as the boulder reaches the end of the adit, it was met head-on in midair by two 75 kg miners, both moving in the direction opposite the boulder. One is moving 2.0 m/s, the other at 3.0 m/s . They all become entangled as one mass. What is their velocity after the collision? 18. What is the momentum of a 18 kg object traveling at a constant velocity that has 295 J of kinetic energy?
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A 92 kg boulder , moving at 5.0 m/s attempts to pass directly across the adit of a mine. Just as the boulder reaches the end of the adit, it was met head-on in midair by two 75 kg miners, both moving in the direction opposite the boulder. One is moving 2.0 m/s, the other at 3.0 m/s . They all become entangled as one mass. What is their velocity after the collision?
18. What is the momentum of a 18 kg object traveling at a constant velocity that has 295 J of kinetic energy?
Transcribed Image Text:17. A 92 kg boulder , moving at 5.0 m/s attempts to pass directly across the adit
of a mine. Just as the boulder reaches the end of the adit, it was met head-on in
midair by two 75 kg miners, both moving in the direction opposite the boulder.
One is moving 2.0 m/s, the other at 3.0 m/s. They all become entangled as one
mass. What is their velocity after the collision?
Your answer
18. What is the momentum of a 18 kg object traveling at a constant velocity that
has 295 J of kinetic energy?
Your answer
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