Table 1. Single positive charge (q = +1nC) Percentage Difference (%) Distance x in (cm) Magnitude of Electric field (V/m) Calculated Simulation 50.0 35.5 35.6 0.28% 100.0 8.88 8.98 1.13% 150.0 3.95 3.99 1.01% 200.0 2.24 2.25 0.44% 250.0 1.44 1.44 0% 300.0 0.99 0.99 0% Table 2. Single negative charge ( q = -1nC) Distance x (cm) Percentage Difference (%) Magnitude of Electric field (V/m) Simulation Calculated 50.0 -35.5 -35.6 0.28% 100.0 -8.88 -8.98 1.13% 150.0 -3.95 -3.99 1.01% 200.0 -2.24 -2.25 0.44% 250.0 -1.44 -1.44 0% 300.0 -0.99 -0.99 0%

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Chapter1: Units, Trigonometry. And Vectors
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What happens to the strength of the electric field of a single positive charge as the distance increases?

What happens to the strength of the electric field of a single negative charge as the distance increases?

Table 1. Single positive charge (q = +1nC)
Percentage Difference
(%)
Distance x in (cm)
Magnitude of Electric field (V/m)
Simulation
Calculated
50.0
35.5
35.6
0.28%
100.0
8.88
8.98
1.13%
150.0
3.95
3.99
1.01%
200.0
2.24
2.25
0.44%
250.0
1.44
1.44
0%
300.0
0.99
0.99
0%
Table 2. Single negative charge ( q = -1nC)
%3D
Percentage Difference
(%)
Distance x (cm)
Magnitude of Electric field (V/m)
Simulation
Calculated
50.0
-35.5
-35.6
0.28%
100.0
-8.88
-8.98
1.13%
150.0
-3.95
-3.99
1.01%
200.0
-2.24
-2.25
0.44%
250.0
-1.44
-1.44
0%
300.0
-0.99
-0.99
0%
Transcribed Image Text:Table 1. Single positive charge (q = +1nC) Percentage Difference (%) Distance x in (cm) Magnitude of Electric field (V/m) Simulation Calculated 50.0 35.5 35.6 0.28% 100.0 8.88 8.98 1.13% 150.0 3.95 3.99 1.01% 200.0 2.24 2.25 0.44% 250.0 1.44 1.44 0% 300.0 0.99 0.99 0% Table 2. Single negative charge ( q = -1nC) %3D Percentage Difference (%) Distance x (cm) Magnitude of Electric field (V/m) Simulation Calculated 50.0 -35.5 -35.6 0.28% 100.0 -8.88 -8.98 1.13% 150.0 -3.95 -3.99 1.01% 200.0 -2.24 -2.25 0.44% 250.0 -1.44 -1.44 0% 300.0 -0.99 -0.99 0%
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