Steps Step 1) Look up the value for the coefficient of kinetic friction between the steel ball and steel track. Step 2) The ball is raised up to a height near the top of the right side of the track. Record this as h2. Step 3) The ball is released with no initial velocity and allowed to roll down the track. Step 4) Determine the velocity of the ball when it reaches the bottom of the track. Step 5) Compare the calculated velocity of the ball at the bottom of the track with the value measured by the motion sensor. Step 6) The height the ball reaches on the opposite side of the track is recorded as h3. Step 7) Complete Tables 1 and 2. Table 1 mBall (kg) 0.05 e (degrees) 30 h2 (m) 0.85 h3 (m) 0.75 Table 2 PE1 (J) PE2 (J) PE3 (J) Vh1 (m/s) Vh2(m/s) Vh3 (m/s) N (N) d (m) Wne (J) Vn1 (meter) = 3.5 m/s Loss of Energy =.

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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Steps
Step 1) Look up the value for the coefficient of kinetic friction between the steel ball and steel track.
Step 2) The ball is raised up to a height near the top of the right side of the track. Record this as h2.
Step 3) The ball is released with no initial velocity and allowed to roll down the track.
Step 4) Determine the velocity of the ball when it reaches the bottom of the track.
Step 5) Compare the calculated velocity of the ball at the bottom of the track with the value measured
by the motion sensor.
Step 6) The height the ball reaches on the opposite side of the track is recorded as h3.
Step 7) Complete Tables 1 and 2.
Table 1
mBall (kg)
0.05
0 (degrees)
h2 (m)
h3 (m)
30
0.85
0.75
Table 2
PE, (J)
PE2 (J)
PE3 (J)
Vr1 (m/s) Vn2(m/s) | Vn3 (m/s)
N (N)
d (m)
Wnc (J)
Vh1 (meter) = 3.5 m/s
Loss of Energy = .
Transcribed Image Text:Steps Step 1) Look up the value for the coefficient of kinetic friction between the steel ball and steel track. Step 2) The ball is raised up to a height near the top of the right side of the track. Record this as h2. Step 3) The ball is released with no initial velocity and allowed to roll down the track. Step 4) Determine the velocity of the ball when it reaches the bottom of the track. Step 5) Compare the calculated velocity of the ball at the bottom of the track with the value measured by the motion sensor. Step 6) The height the ball reaches on the opposite side of the track is recorded as h3. Step 7) Complete Tables 1 and 2. Table 1 mBall (kg) 0.05 0 (degrees) h2 (m) h3 (m) 30 0.85 0.75 Table 2 PE, (J) PE2 (J) PE3 (J) Vr1 (m/s) Vn2(m/s) | Vn3 (m/s) N (N) d (m) Wnc (J) Vh1 (meter) = 3.5 m/s Loss of Energy = .
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