Determine the energy of the spring for each of the compressions and write the values in the data table. - Using your values for D and H (from the incline alone), determine the value for “h” from your data generated from your “d” values.  - Make a graph with spring energy vs. the height.

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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  1. Determine the energy of the spring for each of the compressions and write the values in the data table.

- Using your values for D and H (from the incline alone), determine the value for “h” from your data generated from your “d” values. 

- Make a graph with spring energy vs. the height.

Initial Data
Length of Ramp, D (m)
Height of Ramp, H (m)
Spring Constant, k (N/m)
1.3
0.08
200
Spring
Compression (m)
Spring Energy
(J)
Height “h" of the art at the
top of the incline (m)
Distance "d" cart travels
along the incline (m)
0.01
0.106
0.02
0.439
0.03
0.959
0.04
1.674
0.05
2.600
Transcribed Image Text:Initial Data Length of Ramp, D (m) Height of Ramp, H (m) Spring Constant, k (N/m) 1.3 0.08 200 Spring Compression (m) Spring Energy (J) Height “h" of the art at the top of the incline (m) Distance "d" cart travels along the incline (m) 0.01 0.106 0.02 0.439 0.03 0.959 0.04 1.674 0.05 2.600
Performance Task
In a closed system, mechanical energy is conserved. In this performance task, you will determine the
meaning of the slope of a graph produced when spring energy is used to propel a cart up an incline.
When determining the height traveled by the cart, students measured the length of the ramp, D, the
height of the ramp, H, and the distance the cart travels along the ramp as pictured in Figure 1. To find the
height the cart travels, they simply use the ratio below and solve for "h":
H
h
d
d
h
H
Figure 1
II
Transcribed Image Text:Performance Task In a closed system, mechanical energy is conserved. In this performance task, you will determine the meaning of the slope of a graph produced when spring energy is used to propel a cart up an incline. When determining the height traveled by the cart, students measured the length of the ramp, D, the height of the ramp, H, and the distance the cart travels along the ramp as pictured in Figure 1. To find the height the cart travels, they simply use the ratio below and solve for "h": H h d d h H Figure 1 II
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