8. A spring clamped to the table shoots Block 1 (130 g, wood) directly into Block 2 (90 g, steel), this perfectly elastic collision will launch the second block up a ramp. When the spring is compressed 16 cm, the block travels vertically up a 76 cm ramp and then compresses another spring (100 N/m) at the top, 8 cm. What then is the spring constant for the first spring? Assume that all surfaces are frictionless. 00000 1 10=45°

8. A spring clamped to the table shoots Block 1 (130 g, wood) directly into Block 2 (90 g, steel), this perfectly elastic collision will launch the second block up a ramp. When the spring is compressed 16 cm, the block travels vertically up a 76 cm ramp and then compresses another spring (100 N/m) at the top, 8 cm. What then is the spring constant for the first spring? Assume that all surfaces are frictionless. 00000 1 10=45°

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Question

8.
A spring clamped to the table shoots Block 1 (130 g, wood) directly into Block 2 (90 g, steel), this perfectly
elastic collision will launch the second block up a ramp. When the spring is compressed 16 cm, the block travels
vertically up a 76 cm ramp and then compresses another spring (100 N/m) at the top, 8 cm. What then is the
spring constant for the first spring? Assume that all surfaces are frictionless.
Kp=Usp
2 0=45°

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