Question 1 Hanging Mass - Part A: A 8.0 kg mass is suspended vertically below a spring. The spring-mass system begins at rest. Sketch a free body diagram of the 8 kg mass. Clearly label each force, indicating the object the forces are acting upon, as well as the object that is creating the force. If you use any abbreviations, please provide a key. Question 1 Hanging Mass Part B: Given that the object is starting at rest, how should the magnitude of the forces compare to each other? How should the direction of the forces compare to each other? Question 1 Hanging Mass - Part C: Calculate the magnitude of the Tension force in the spring. Be sure to include units. Answer:

College Physics
11th Edition
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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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Question 1 Hanging Mass - Part A:
A 8.0 kg mass is suspended vertically below a spring. The spring-mass
system begins at rest.
Sketch a free body diagram of the 8 kg mass. Clearly label each force,
indicating the object the forces are acting upon, as well as the object
that is creating the force. If you use any abbreviations, please provide a
key.
Question 1 Hanging Mass - Part B:
Given that the object is starting at rest, how should the magnitude of
the forces compare to each other? How should the direction of the
forces compare to each other?
Question 1 Hanging Mass Part C:
Calculate the magnitude of the Tension force in the spring. Be sure to
include units.
Answer:
Question 1 Hanging Mass - Part D
We now grab hold of the 8 kg mass and apply a downward force,
causing the spring to stretch.
Of the forces you drew in Part A, which force or forces (if any) have
increased in magnitude? Which force or forces (if any) decreased in
magnitude? Which force or forces (if any) remained the same size?
Transcribed Image Text:Question 1 Hanging Mass - Part A: A 8.0 kg mass is suspended vertically below a spring. The spring-mass system begins at rest. Sketch a free body diagram of the 8 kg mass. Clearly label each force, indicating the object the forces are acting upon, as well as the object that is creating the force. If you use any abbreviations, please provide a key. Question 1 Hanging Mass - Part B: Given that the object is starting at rest, how should the magnitude of the forces compare to each other? How should the direction of the forces compare to each other? Question 1 Hanging Mass Part C: Calculate the magnitude of the Tension force in the spring. Be sure to include units. Answer: Question 1 Hanging Mass - Part D We now grab hold of the 8 kg mass and apply a downward force, causing the spring to stretch. Of the forces you drew in Part A, which force or forces (if any) have increased in magnitude? Which force or forces (if any) decreased in magnitude? Which force or forces (if any) remained the same size?
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