To stretch a certain spring by 3.00 cm from its equilibrium position requires 7.50 J of...
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To stretch a certain spring by 3.00 cm from its equilibrium position requires 7.50 J of work. |
Part A What is the force constant of this spring?
SubmitRequest Answer Part B What was the maximum force required to stretch it by that distance?
SubmitRequest Answer Return to AssignmentProvide Feedback |
Homework Answers
Given that to stretch the spring by 3.00 cm from its equilibrium position requires 7.50 J of work
Workdone, 
Part A) ANSWER: 
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Part B) What was the maximum force required to stretch it by that distance?
Use formula 
ANSWER: 
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To stretch a certain spring by 3.00 cm from its equilibrium
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Please answer parts A and B: To stretch a certain spring by 2.20 cm from its equilibrium position requires 8.50 J of work. Part A : What is the force constant of this spring? k k = N/m Part B : What was the maximum force required to stretch it by that distance?
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If it requires 7.0 J of work to stretch a particular spring by 1.9 cm from...
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To stretch an ideal spring 9.00 cm from its unstretched length, 19.0 J of work must be done. Part A What is the force constant of this spring? Express your answer with the appropriate units. Part B What magnitude force is needed to stretch the spring 9.00 cm from its unstretched length? Express your answer with the appropriate units. Part C How much work must be done to compress this spring 4.00 cm from its unstretched length? Express your answer...
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If it requires 8.0 J of work to stretch a particular spring by 2.0 cm from its equilibrium length, how much more work will be required to stretch it an additional 4.0 cm?
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If it requires 8.0 J of work to stretch a particular spring by 2.0 cm from its equilibrium length, how much more work will be required to stretch it an additional 4.0 cm? W=
A force of 4.9 N is required to stretch a certain spring by 1.3 cm. Part...
A force of 4.9 N is required to stretch a certain spring by 1.3 cm. Part A: How far must this spring be stretched for its potential energy to be 0.025 J? Part B: How much stretch is required for the spring potential energy to be 0.075 J?
If it requires 9.2 J of work to compress a spring by 4 cm from equilibrium,...
If it requires 9.2 J of work to compress a spring by 4 cm from equilibrium, how much work would it require to stretch the spring by 6 cm from equilibrium?
It takes 6.5 J of work to stretch a spring 4.1 cm from its unstressed (relaxed)...
It takes 6.5 J of work to stretch a spring 4.1 cm from its unstressed (relaxed) length. a) How much (in J) spring potential energy is then stored by the spring? b) What is the spring constant k in N/m? c) What if the spring is compressed instead by 4.1 cm from its unstressed length, how much (in J) spring potential energy is then stored by the spring? d) How much work (in J) is needed to compress the spring...
Suppose a force of 40 N is required to stretch and hold a spring 0.1 m from its equilibrium position. a. Assuming the spring obeys Hooke's law, find the spring constant k. b. How much work is req...
Suppose a force of 40 N is required to stretch and hold a spring 0.1 m from its equilibrium position. a. Assuming the spring obeys Hooke's law, find the spring constant k. b. How much work is required to compress the spring 0.2 m from its equilibrium position? c. How much work is required to stretch the spring 0.5 m from its equilibrium position? d. How much additional work is required to stretch the spring 0.1 m if it has...
If it requires 7.0 J of work to stretch a particular spring by 1.9 cm from its equilibrium length, how much more work will be required to stretch it an additional 3.8 cm? Express your answer using two significant figures. Η ΑΣΦ ? W - 63 J You have already submitted this answer. Enter a new answer No credit lost. Try again Submit Previous Answers Request Answer Provide Feedback
If it requires 9.2 J of work to compress a spring by 4 cm from equilibrium, how much work would it require to stretch the spring by 6 cm from equilibrium?
Suppose a force of 40 N is required to stretch and hold a spring 0.1 m from its equilibrium position. a. Assuming the spring obeys Hooke's law, find the spring constant k. b. How much work is required to compress the spring 0.2 m from its equilibrium position? c. How much work is required to stretch the spring 0.5 m from its equilibrium position? d. How much additional work is required to stretch the spring 0.1 m if it has...
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