03a. A 0.106 kg marble is against a spring on a table 0.611 m high, above the ground. If the spring is compressed 0.108 m and its spring constant is 77.8 N/m, calculate the TOTAL energy of the system. (the ground has a height of Om) 03b. The spring is released, launching the marble horizontally and off the table. Calculate the speed of the marble when friction/air resistance). reaches the ground (ignore
03a. A 0.106 kg marble is against a spring on a table 0.611 m high, above the ground. If the spring is compressed 0.108 m and its spring constant is 77.8 N/m, calculate the TOTAL energy of the system. (the ground has a height of Om) 03b. The spring is released, launching the marble horizontally and off the table. Calculate the speed of the marble when friction/air resistance). reaches the ground (ignore
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
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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I need help with 3a and 3b please
Transcribed Image Text:neight?
02b. How far does the spring compress when the marble
lands on it?
Response
03a. A 0.106 kg marble is against a spring on a table
0.611 m high, above the ground. If the spring is
compressed 0.108 m and its spring constant is 77.8
N/m, calculate the TOTAL energy of the system. (the
ground has a height of 0m)
03b. The spring is released, launching the marble
horizontally and off the table. Calculate the speed of
the marble when it reaches the ground (ignore
friction/air resistance).
04a. A 5.67 kg watermelon is dropped from a height of
20.6 m. What will be the watermelon's speed when it
hit the ground?
04b. A 5.67 kg watermelon is thrown downwards, with a
speed of 5.04 m/s, from a height of 20.6 m. What will
be the watermelon's speed when it hit the ground?
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