Physics 6 Simple Harmonic Motion Professor M. Meyer B. Compute the time period of oscillation (7) Compute the period of oscillation for each of the three hanging masses. Fill in the empty cells using equations [6'] and [7]. Fill in the empty cells with the percent error between both computations. Experimental determination of the period (T) for the Brass Spring massapring le) -| 162 --mass (kg )- 0.162 Total hanging mass (kg) # oscillations in 120 sec Teq. 7 (s) Tegs (s) %% еггоr 0.99 T.3 0.15 121 0.3 93 82 7.5 0.4 16']-17) x100 m. 120 sec spring %Error = [7] # oscillations in 120 sec [6]+[7] T= 27 [6'] Show your computations here:

Physics 6 Simple Harmonic Motion Professor M. Meyer B. Compute the time period of oscillation (7) Compute the period of oscillation for each of the three hanging masses. Fill in the empty cells using equations [6'] and [7]. Fill in the empty cells with the percent error between both computations. Experimental determination of the period (T) for the Brass Spring massapring le) -| 162 --mass (kg )- 0.162 Total hanging mass (kg) # oscillations in 120 sec Teq. 7 (s) Tegs (s) %% еггоr 0.99 T.3 0.15 121 0.3 93 82 7.5 0.4 16']-17) x100 m. 120 sec spring %Error = [7] # oscillations in 120 sec [6]+[7] T= 27 [6'] Show your computations here:

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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Question

Physics 6
Simple Harmonic Motion
Professor M. Meyer
B. Compute the time period of oscillation (7)
Compute the period of oscillation for each of the three hanging masses. Fill in the empty
cells using equations [6'] and [7]. Fill in the empty cells with the percent error between
both computations.
Experimental determination of the period (T) for the Brass Spring
massapring le) -| 162
--mass (kg )- 0.162
Total hanging
mass (kg)
# oscillations in
120 sec
Teq. 7 (s)
Tegs (s)
%% еггоr
0.99
T.3
0.15
121
0.3
93
82
7.5
0.4
16']-17)
x100
m.
120 sec
spring
%Error =
[7]
# oscillations in 120 sec
[6]+[7]
T= 27
[6']
Show your computations here:

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