The spring in the image has a spring constant of 8000 N/m. it is pressed 24.0cm from its normal length. When released, the spring launches a 5 kg block on a frictionless horizontal surface. The block then climbs a 2 m high ramp inclined at an angle of 35.0 degrees above the horizontal And has a coefficient of kinetic friction of 0.480. calculate the following; a. The initial speed of the block at the base of the ramp (vi) b. The final speed of the block at the very top of the ramp (v) c. The horizontal distance the block travels after it takes off from the top of the ramp (d) 35⁰° Ramp 2m

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The spring in the image has a spring constant of 8000 N/m. it is pressed 24.0cm from
its normal length. When released, the spring launches a 5 kg block on a frictionless
horizontal surface. The block then climbs a 2 m high ramp inclined at an angle of 35.0
degrees above the horizontal And has a coefficient of kinetic friction of 0.480.
calculate the following:
a. The initial speed of the block at the base of the ramp (vi)
b. The final speed of the block at the very top of the ramp (v)
c. The horizontal distance the block travels after it takes off from the top of the
ramp (d)
35°
Ramp
2m
Transcribed Image Text:The spring in the image has a spring constant of 8000 N/m. it is pressed 24.0cm from its normal length. When released, the spring launches a 5 kg block on a frictionless horizontal surface. The block then climbs a 2 m high ramp inclined at an angle of 35.0 degrees above the horizontal And has a coefficient of kinetic friction of 0.480. calculate the following: a. The initial speed of the block at the base of the ramp (vi) b. The final speed of the block at the very top of the ramp (v) c. The horizontal distance the block travels after it takes off from the top of the ramp (d) 35° Ramp 2m
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