A 0.40 kg block can slide up and down a rough 10-m-high, 30-m-long slope. At the bottom, a stiff spring with spring constant 800 N/m is compressed 0.50 m and used to launch the block up the slope. The friction force on the block from the slope is 1.2 N. Use g = 10 m/s2. Match the answers with questions. the change in spring potential energy (AUsp) A. 18 J the change in gravitational potential energy (AUg) B. -40 J the change in thermal energy (AEth) C. -18 J the change in kinetic energy (AK) D. 36 E. 100 J F.-36 J G. 40 J H.-100 J 1. -24 J J. 24 J
A 0.40 kg block can slide up and down a rough 10-m-high, 30-m-long slope. At the bottom, a stiff spring with spring constant 800 N/m is compressed 0.50 m and used to launch the block up the slope. The friction force on the block from the slope is 1.2 N. Use g = 10 m/s2. Match the answers with questions. the change in spring potential energy (AUsp) A. 18 J the change in gravitational potential energy (AUg) B. -40 J the change in thermal energy (AEth) C. -18 J the change in kinetic energy (AK) D. 36 E. 100 J F.-36 J G. 40 J H.-100 J 1. -24 J J. 24 J
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Transcribed Image Text:A 0.40 kg block can slide up and down a rough 10-m-high, 30-m-long slope. At the bottom, a stiff spring with spring constant 800 N/m is
compressed 0.50 m and used to launch the block up the slope. The friction force on the block from the slope is 1.2 N. Use g = 10 m/s2. Match
the answers with questions.
the change in spring potential energy (AUsp)
A. 18 J
the change in gravitational potential energy (AUg)
B. -40 J
the change in thermal energy (AEth)
C. -18 J
the change in kinetic energy (AK)
D. 36
E. 100 J
F.-36 J
G. 40 J
H.-100 J
1. -24 J
J. 24 J
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