Consider a 3.2 kg block that is connected to the surface of the Earth with a vertical spring that has 760 N/m and a relaxed length of 2.2 m. Furthermore, the block is surrounded by a dense gas. At 0 s you pull the block to a height of 2.4 m and throw the block vertically downward with a velocity of magnitude 6.6 m/s. The block first comes to momentary rest at a height of 1.9 m. Write out a function for the amount of thermal energy that must be generated due to air resistance, and evaulate that function numerically.
Consider a 3.2 kg block that is connected to the surface of the Earth with a vertical spring that has 760 N/m and a relaxed length of 2.2 m. Furthermore, the block is surrounded by a dense gas. At 0 s you pull the block to a height of 2.4 m and throw the block vertically downward with a velocity of magnitude 6.6 m/s. The block first comes to momentary rest at a height of 1.9 m. Write out a function for the amount of thermal energy that must be generated due to air resistance, and evaulate that function numerically.
Classical Dynamics of Particles and Systems
5th Edition
ISBN:9780534408961
Author:Stephen T. Thornton, Jerry B. Marion
Publisher:Stephen T. Thornton, Jerry B. Marion
Chapter9: Dynamics Of A System Of Particles
Section: Chapter Questions
Problem 9.19P
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Consider a 3.2 kg block that is connected to the surface of the Earth with a vertical spring
that has 760 N/m and a relaxed length of 2.2 m. Furthermore, the block is surrounded by
a dense gas. At 0 s you pull the block to a height of 2.4 m and throw the block vertically
downward with a velocity of magnitude 6.6 m/s. The block first comes to momentary
rest at a height of 1.9 m.
Write out a function for the amount of thermal energy that must be generated due to
air resistance, and evaulate that function numerically.
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