A block of mass m2 = 8.3 kg, at rest on a horizontal surface that has negligible friction, is connected to a spring which is initially not stretched or compressed. The other end of the spring is fixed to a wall, and the spring constant is k = 260 N/m. Another block of mass m1 = 7.4 kg and speed v1 = 6.2 m/s collides with the 8.3 kg block. The blocks stick together, and compress the spring. ww 2 1

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Chapter1: Units, Trigonometry. And Vectors
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I keep getting undefined with my equation how do I set this up?

MaximumCompression
What is the maximum compression of the spring?
Click here for a hint
dmax
0 m
Hint:
Hint:
Hint
Transcribed Image Text:MaximumCompression What is the maximum compression of the spring? Click here for a hint dmax 0 m Hint: Hint: Hint
A block of mass m2 = 8.3 kg, at rest on a horizontal surface that has negligible friction, is connected to a spring which is initially not
stretched or compressed. The other end of the spring is fixed to a wall, and the spring constant is k = 260 N/m. Another block of mass
m1 = 7.4 kg and speed v1 = 6.2 m/s collides with the 8.3 kg block. The blocks stick together, and compress the spring.
2
1
Conceptual
Is this collision elastic?
O Yes
O No
Transcribed Image Text:A block of mass m2 = 8.3 kg, at rest on a horizontal surface that has negligible friction, is connected to a spring which is initially not stretched or compressed. The other end of the spring is fixed to a wall, and the spring constant is k = 260 N/m. Another block of mass m1 = 7.4 kg and speed v1 = 6.2 m/s collides with the 8.3 kg block. The blocks stick together, and compress the spring. 2 1 Conceptual Is this collision elastic? O Yes O No
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