Based on the data below:1. How did the change in radius, while keeping everything constant, affect the stopper as it was spinning?2. How did the increase in mass (number of stoppers), while keeping everything constant, affect the stopper as it was spinning?3. How did the change in hanging mass (m2), while keeping everything constant, affect the stopper as it was spinning?4. What are the implications of the percent error calculations between the calculated centripetal forces and the hanged masses for the following:i) TABLE Aii) TABLE Biii) TABLE C Note: Use the units specified directly in your calculations! DO NOT CONVERT UNITS!1 dyne = 1 g*cm/s^2 = 10^-5 N%3DMass of stopper 1 (g)Mass of stopper 2 (g)Mass of stopper 3 (g)303015TABLE A (constant m2 = 100 g)TABLE B(constant r = 50 cm)%3DNumber ofRADIUS r (cm)TIME, t (s)Period, T (s)Centripetal force, Fc (dyne)stoppersTIME, t (s)Period, T (s)Centripetal force, Fc (dyne)10010.561.056106207.003318.040.80491609.1594759.120.912106795.4077210.691.069103639.5649508.040.80491609.1594311.771.177106865.6370Average Fc =101537.1902Average Fc =100704.7871%3D%3D% Difference between Fc and weight of m2 in dyne6.8363% Difference between Fc and weight of m2 in dyne2.6546TABLE C (constant r = 50 cm)Hanged massm2 (g)Centripetal force, % Difference of Fc andWeigt (dyne)TIME, t (s)Period, T (s)Fc (dyne)weight of each m210098066.58.040.80491609.15946.8088120117679.87.340.734109915.48386.8229140137293.16.830.683126943.24287.8338 rmiStopperHollow tube* Paper clipm2Hanging mass

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College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

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Based on the data below:

1. How did the change in radius, while keeping everything constant, affect the stopper as it was spinning?

2. How did the increase in mass (number of stoppers), while keeping everything constant, affect the stopper as it was spinning?

3. How did the change in hanging mass (m2), while keeping everything constant, affect the stopper as it was spinning?

4. What are the implications of the percent error calculations between the calculated centripetal forces and the hanged masses for the following:

i) TABLE A

ii) TABLE B

iii) TABLE C

Note: Use the units specified directly in your calculations! DO NOT CONVERT UNITS!
1 dyne = 1 g*cm/s^2 = 10^-5 N
%3D
Mass of stopper 1 (g)
Mass of stopper 2 (g)
Mass of stopper 3 (g)
30
30
15
TABLE A (constant m2 = 100 g)
TABLE B
(constant r = 50 cm)
%3D
Number of
RADIUS r (cm)
TIME, t (s)
Period, T (s)
Centripetal force, Fc (dyne)
stoppers
TIME, t (s)
Period, T (s)
Centripetal force, Fc (dyne)
100
10.56
1.056
106207.0033
1
8.04
0.804
91609.1594
75
9.12
0.912
106795.4077
2
10.69
1.069
103639.5649
50
8.04
0.804
91609.1594
3
11.77
1.177
106865.6370
Average Fc =
101537.1902
Average Fc =
100704.7871
%3D
%3D
% Difference between Fc and weight of m2 in dyne
6.8363
% Difference between Fc and weight of m2 in dyne
2.6546
TABLE C (constant r = 50 cm)
Hanged mass
m2 (g)
Centripetal force, % Difference of Fc and
Weigt (dyne)
TIME, t (s)
Period, T (s)
Fc (dyne)
weight of each m2
100
98066.5
8.04
0.804
91609.1594
6.8088
120
117679.8
7.34
0.734
109915.4838
6.8229
140
137293.1
6.83
0.683
126943.2428
7.8338

r
mi
Stopper
Hollow tube
* Paper clip
m2
Hanging mass

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