A 30.0° frictionless inclined plane has a spring at the bottom. A block of mass m 5.00 kg starts from rest at the top and comes to rest momentarily at the bottom when it compresses the spring by x 0.20 m. The total distance the block travels along the incline is (d + x), where d = 1.00 m and x = 0.200 m. Determine the spring constant k. (Consider conservation of energy 'system'} ww k O 2,740 N/m O 1,470 N/m O 996 N/m O 3,950 N/m O 1,080 N/m
A 30.0° frictionless inclined plane has a spring at the bottom. A block of mass m 5.00 kg starts from rest at the top and comes to rest momentarily at the bottom when it compresses the spring by x 0.20 m. The total distance the block travels along the incline is (d + x), where d = 1.00 m and x = 0.200 m. Determine the spring constant k. (Consider conservation of energy 'system'} ww k O 2,740 N/m O 1,470 N/m O 996 N/m O 3,950 N/m O 1,080 N/m
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Transcribed Image Text:rest momentarily at the bottom when it compresses the spring by x = 0.20 m. The total distance the block travels along the incline is (d
+ x), where d = 1.00 m and x = 0.200 m. Determine the spring constant k. (Consider conservation of energy 'system'}
A 30.0° frictionless inclined plane has a spring at the bottom. A block of mass m = 5.00 kg starts from rest at the top and comes to
m.
ww
O 2,740 N/m
O 1,470 N/m
O 996 N/m
O 3,950 N/m
O 1,080 N/m
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