3. Make another Table 1.1. Answer the following question: a. Calculate the value of k used in this simulation and fill up Table 1.1 Col.5. Recalculate F (and fill up Table 1.1 Col.6). Give your opinion on the k value used and the calculated electrical forces.

3. Make another Table 1.1. Answer the following question: a. Calculate the value of k used in this simulation and fill up Table 1.1 Col.5. Recalculate F (and fill up Table 1.1 Col.6). Give your opinion on the k value used and the calculated electrical forces.

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Question

FE = k (q1q2/r2)

Where r is the separation distance between the charged objects and k is a constant of proportionality,

called the Coulomb constant, k= 9.0×109 Nm2/C2.

Table 1.1: Verification for Table 1 answer
1-
Charge value
k used in simulation
Value of k=8.9x10°
2-
Simulation
5-
6-
7-
8-
Distance,
3-
4-
Constant Recalculate Constant k Calculate
F(N)
results
r (m)
q1 (C) q2 (C)
F(N)
k value
value
F(N)
89.876
0.02
2µC
2µC
22.469
0.04
2µC
2µC
9.986
0.06
2µC
2µC
5.617
0.08
2µC
2µC
3.595
0.10
2µC
2µC

3. Make another Table 1.1. Answer the following question:
a. Calculate the value of k used in this simulation and fill up Table 1.1 Col.5. Recalculate F
(and fill up Table 1.1 Col.6). Give your opinion on the k value used and the calculated
electrical forces.
4. Calculate the electrical forces using constant k with a value of 8.9x10° (as mentioned in
textbook). Fill your calculated answer in Table 1.1 Col.8. Comment your findings with
respect to results in Step 3.
a. Are these results acceptable (because they are not the same as simulation results)?
b. Which k is the correct one to use?

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