Use Newton's Second Law (Fnet=ma) to solve for the mass of the apple.Explain how you used Newton's Second Law to solve for mass. Use the equation editor to show your work. You do not need to show minor algebraic steps.hint: Earlier, you calculated the angular acceleration for the disk. How is this angular acceleration related to the acceleration of the apple? Distance (m)0.40.30.20.10Distance Curve:y = At^2 + BmA: 0.8692B: 0.0242 m0.1RMSE: 0.0209 mr: 0.992Distance vs TimeDisplay Curve Fit Uncertainties0.2time^2 (s^2)0.3●0.40.5 123+5U678Convert ALL units to MKS (meters, kg, seconds), and show ALL your work for thecalculations parts!..…..Distancem0.0230.060.1120.180.260.3550.42TimeS0.10.20.30.40.50.60.7time^2s^20.000.01000.04000.09000.1600.2500.3600.490t^2

Solution: The distance versus time squared graph is given. The equation of the straight line graph…

Use Newton's Second Law (Fnet=ma) to solve for the mass of the apple. Explain how you used Newton's Second Law to solve for mass. Use the equation editor to show your work. You do not need to show minor algebraic steps. hint: Earlier, you calculated the angular acceleration for the disk. How is this angular acceleration related to the acceleration of the apple?

Use Newton's Second Law (Fnet=ma) to solve for the mass of the apple. Explain how you used Newton's Second Law to solve for mass. Use the equation editor to show your work. You do not need to show minor algebraic steps. hint: Earlier, you calculated the angular acceleration for the disk. How is this angular acceleration related to the acceleration of the apple?

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Question

Use Newton's Second Law (Fnet=ma) to solve for the mass of the apple.

Explain how you used Newton's Second Law to solve for mass. Use the equation editor to show your work. You do not need to show minor algebraic steps.

hint: Earlier, you calculated the angular acceleration for the disk. How is this angular acceleration related to the acceleration of the apple?

Distance (m)
0.4
0.3
0.2
0.1
0
Distance Curve:
y = At^2 + B
m
A: 0.8692
B: 0.0242 m
0.1
RMSE: 0.0209 m
r: 0.992
Distance vs Time
Display Curve Fit Uncertainties
0.2
time^2 (s^2)
0.3
●
0.4
0.5

1
2
3
+
5
U
6
7
8
Convert ALL units to MKS (meters, kg, seconds), and show ALL your work for the
calculations parts!
..
…..
Distance
m
0.023
0.06
0.112
0.18
0.26
0.355
0.42
Time
S
0.1
0.2
0.3
0.4
0.5
0.6
0.7
time^2
s^2
0.00
0.0100
0.0400
0.0900
0.160
0.250
0.360
0.490
t^2

Definition Definition Rate of change of angular velocity. Angular acceleration indicates how fast the angular velocity changes over time. It is a vector quantity and has both magnitude and direction. Magnitude is represented by the length of the vector and direction is represented by the right-hand thumb rule. An angular acceleration vector will be always perpendicular to the plane of rotation. Angular acceleration is generally denoted by the Greek letter α and its SI unit is rad/s 2 .

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