As the distances of release relative to the ramp were increased from 10, 20, and 30 cm while the mass was kept constant, what trend did you observe regarding the value of acceleration? How does this affect the calculation of forces? Explain in detail and utilize quantitative calculations such as percent increase or decrease etc.

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As the distances of release relative to the ramp were increased from 10, 20, and 30 cm while the mass was kept constant, what trend did you observe regarding the value of acceleration? How does this affect the calculation of forces? Explain in detail and utilize quantitative calculations such as percent increase or decrease etc.

SPEHRICAL OBECT 1 MASS (kg)
0.0022
SPEHRICAL OBECT 2 MASS (kg)
0.0031
SPEHRICAL OBECT 3 MASS (kg)
0.0053
SET-UP 1 AND 2 (LIGHTEST MASS AT DIFFERENT LENGTHS WITH CATCHERS 1 AND 2)
Time from top to end of ramp and
corresponding accelerations
Trials for 10 cm Catcher 1 Knock-
Trials for 20 cm
Catcher 1 Knock-
Trials for 30 cm
Catcher 1 Knock-
Configurations
Time 1
Time 2
Time 3
Ave.
ramp distance
back Distance
ramp distance
back Distance
ramp distance
back Distance
10 cm ramp distance
0.35
0.48
0.56
0.46
1
2
2
Calculated Acceleration
1.63
0.87
0.64
1.05
1
2
2
2
3
20 cm ramp distance
Calculated Acceleration
30 cm ramp distance
Calculated Acceleration
0.73
0.56
0.64
0.64
3
1
3
1
3
3
0.75
1.28
0.98
1
Ave.
1
Ave.
1.67
Ave.
2.67
0.81
0.56
0.68
0.68
0.91
1.91
1.3
1.4
Catcher 2 Knock-
Catcher 2 Knock-
Catcher 2 Knock-
Trials for 10 cm back Distance
Trials for 20 cm
back Distance
Trials for 30 cm
back Distance
ramp distance
(cm)
ramp distance
(cm)
ramp distance
(cm)
rce calculation 10 cm ramp distar 0.00231
rce calculation 20 cm ramp distar 0.0031
rce calculation 30 cm ramp distar 0.00742
1
1
0.7
1
3.1
2
0.6
2
3.3
3
3
0.4
3
2
Ave.
Ave.
0.57
Ave.
2.8
SET-UP 3 & 4 (2 OTHER SPHERICAL OBJECTS WITH CATCHER 1 AT 10 CM)
SHPERICAL
lOBJECT NO.
SHPERICAL
2
ОBJЕCT NO.
3
Catcher 1 Knock-
Catcher 1 Knock-
Trials for 10 cm back Distance
Trials for 10 cm
back Distance
ramp distance
(cm)
ramp distance
(cm)
1
2
1.3
2.
0.6
2
1.5
3
2
3
1
Ave.
1.53
Ave.
1.27
Transcribed Image Text:SPEHRICAL OBECT 1 MASS (kg) 0.0022 SPEHRICAL OBECT 2 MASS (kg) 0.0031 SPEHRICAL OBECT 3 MASS (kg) 0.0053 SET-UP 1 AND 2 (LIGHTEST MASS AT DIFFERENT LENGTHS WITH CATCHERS 1 AND 2) Time from top to end of ramp and corresponding accelerations Trials for 10 cm Catcher 1 Knock- Trials for 20 cm Catcher 1 Knock- Trials for 30 cm Catcher 1 Knock- Configurations Time 1 Time 2 Time 3 Ave. ramp distance back Distance ramp distance back Distance ramp distance back Distance 10 cm ramp distance 0.35 0.48 0.56 0.46 1 2 2 Calculated Acceleration 1.63 0.87 0.64 1.05 1 2 2 2 3 20 cm ramp distance Calculated Acceleration 30 cm ramp distance Calculated Acceleration 0.73 0.56 0.64 0.64 3 1 3 1 3 3 0.75 1.28 0.98 1 Ave. 1 Ave. 1.67 Ave. 2.67 0.81 0.56 0.68 0.68 0.91 1.91 1.3 1.4 Catcher 2 Knock- Catcher 2 Knock- Catcher 2 Knock- Trials for 10 cm back Distance Trials for 20 cm back Distance Trials for 30 cm back Distance ramp distance (cm) ramp distance (cm) ramp distance (cm) rce calculation 10 cm ramp distar 0.00231 rce calculation 20 cm ramp distar 0.0031 rce calculation 30 cm ramp distar 0.00742 1 1 0.7 1 3.1 2 0.6 2 3.3 3 3 0.4 3 2 Ave. Ave. 0.57 Ave. 2.8 SET-UP 3 & 4 (2 OTHER SPHERICAL OBJECTS WITH CATCHER 1 AT 10 CM) SHPERICAL lOBJECT NO. SHPERICAL 2 ОBJЕCT NO. 3 Catcher 1 Knock- Catcher 1 Knock- Trials for 10 cm back Distance Trials for 10 cm back Distance ramp distance (cm) ramp distance (cm) 1 2 1.3 2. 0.6 2 1.5 3 2 3 1 Ave. 1.53 Ave. 1.27
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