If a block of mass m starts from rest at position 1 as shown below, and slides down the frictionless incline a. what is its speed at position 2? (Hint: use conservation of energy.) Note: This problem gives no numbers, so don’t put in numbers to do this problem. Of course you can on your  scratch paper, if you want to, but for the work on this test, you need to leave it as an algebraic problem. ?2 = ______________________________ b. If it continues to slide across the frictionless surface, what is the distance, ∆?, that it compresses the  spring, with stiffness k, when it stops at position 3? ∆?3 = ______________________________ Please write your work clearly

College Physics
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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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If a block of mass m starts from rest at position 1 as shown below, and slides down the frictionless incline
a. what is its speed at position 2? (Hint: use conservation of energy.)
Note: This problem gives no numbers, so don’t put in numbers to do this problem. Of course you can on your 
scratch paper, if you want to, but for the work on this test, you need to leave it as an algebraic problem.
?2 = ______________________________
b. If it continues to slide across the frictionless surface, what is the distance, ∆?, that it compresses the 
spring, with stiffness k, when it stops at position 3?
∆?3 = ______________________________

Please write your work clearly

1. If a block of mass m starts from rest at position 1 as shown below, and slides down the frictionless incline
x=0
a. what is its speed at position 2? (Hint: use conservation of energy.)
Note: This problem gives no numbers, so don't put in numbers to do this problem. Of course you can on your
scratch paper, if you want to, but for the work on this test, you need to leave it as an algebraic problem.
V2 =
b. If it continues to slide across the frictionless surface, what is the distance, Ax, that it compresses the
spring, with stiffness k, when it stops at position 3?
Axz =
Transcribed Image Text:1. If a block of mass m starts from rest at position 1 as shown below, and slides down the frictionless incline x=0 a. what is its speed at position 2? (Hint: use conservation of energy.) Note: This problem gives no numbers, so don't put in numbers to do this problem. Of course you can on your scratch paper, if you want to, but for the work on this test, you need to leave it as an algebraic problem. V2 = b. If it continues to slide across the frictionless surface, what is the distance, Ax, that it compresses the spring, with stiffness k, when it stops at position 3? Axz =
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