3) Spring A has K=37.0kg/m Spring B has K = 82.0 kg/m Spring A and B are joined together end to end to make one long spring, attached to a wali. The other end is attached to amass “m" on a smooth, frictionlesS surface. When the combined spring(s) are stretched by 30.0 cm and released, the block has a maximum velocity of 4.50 m/s. A) What is the mass of block “m? Now the same springs are placed side by side, both attached to the wall and to mass “m". They are NOT attached to each other. The mass is stretched 30.0 cm as before and released. Find the ratio of the maximum speed in “A" (springs attached to each other) divided by the maximum speed in "B" (separate springs) B)

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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08)
Spring A has K=37.0 kg/m SpringB has K=82.0 kg/m Spring A and B are joined
together end to end to make one long spring, attached to a wall. The other end is attached
to a mass “m" on a smooth, frictionless surface. When the combined spring(s) are
stretched by 30.0 cm and released, the block has a maximum velocity of 4.50 m/s.
A)
What is the mass of block "m*?
Now the same springs are placed side by side, both attached to the wall and to
mass “m". Theyare NOT attached to each other. The mass is stretched 30.0 cm
as before and released. Find the ratio of the maximum speed in “A" (springs
attached to each other) divided by the maximum speed in “B"(separate springs)
В)
Transcribed Image Text:08) Spring A has K=37.0 kg/m SpringB has K=82.0 kg/m Spring A and B are joined together end to end to make one long spring, attached to a wall. The other end is attached to a mass “m" on a smooth, frictionless surface. When the combined spring(s) are stretched by 30.0 cm and released, the block has a maximum velocity of 4.50 m/s. A) What is the mass of block "m*? Now the same springs are placed side by side, both attached to the wall and to mass “m". Theyare NOT attached to each other. The mass is stretched 30.0 cm as before and released. Find the ratio of the maximum speed in “A" (springs attached to each other) divided by the maximum speed in “B"(separate springs) В)
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