Consider a l-kg object dropped from rest from a height of 180 m off the ground. Analyze the potential and kinetic energies of the object at the end of every one-second interval during its fall. Complete the table below by following the instruction for each column.

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Consider a l-kg object dropped from rest from a height of 180 m off the ground. Analyze the potential and
kinetic energies of the object at the end of every one-second interval during its fall. Complete the table below by
following the instruction for each column.
Vertical Distance
Traveled, d (m)
(2)
0.
Helght from the
Ground, h (m)
(3)
180
175
Speed, v
(m/s)
(5)
Total Energy
(P.E. + K.E.) (J)
(7)
1800
Time (s)
P.E.grav (J)
K.E. (J)
(1)
(4)
1800
(6)
1
1750
10
50
1800
3.
4
6.
For column (2):
To get the vertical distance traveled, use the equation: d = -a,t? (note: use a,- 10 m/s²
%3D
2.
Transcribed Image Text:Procedure: Consider a l-kg object dropped from rest from a height of 180 m off the ground. Analyze the potential and kinetic energies of the object at the end of every one-second interval during its fall. Complete the table below by following the instruction for each column. Vertical Distance Traveled, d (m) (2) 0. Helght from the Ground, h (m) (3) 180 175 Speed, v (m/s) (5) Total Energy (P.E. + K.E.) (J) (7) 1800 Time (s) P.E.grav (J) K.E. (J) (1) (4) 1800 (6) 1 1750 10 50 1800 3. 4 6. For column (2): To get the vertical distance traveled, use the equation: d = -a,t? (note: use a,- 10 m/s² %3D 2.
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