Related questions
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.
Transcribed Image Text: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
Transcribed Image Text: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?
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by stepSolved in 2 steps
Knowledge Booster
Similar questions
- Two charges are located on the x axis: q₁ = +7.3 µC at x₁ = +3.1 cm, and q2 = +7.3 µC at x₂ = -3.1 cm. Two other charges are located on the y axis: 93 = +3.1 μC at y3 = +5.4 cm, and 94 = -7.8 μC at y4 = +6.0 cm. Find (a) the magnitude and (b) the direction of the net electric field at the origin. 92 +y I 1 I 94 I I 93 1 41 --+xarrow_forwardThree charges are placed along the x-axis: q1 = 3.00 µC at X1 = -20.0 cm, q2 = -5.00 µC at x2 = 10.0 cm, and q3 = 6.00 µC at x3 = 25.00 cm. Determine the magnitude of the electric field at the origin. O 4 69x106 N/C O 2 96x106 N/C O 6 04x106 N/C O 4.31x106 N/Carrow_forwardTwo electric charges of q1 = -4.8 nC and q2= 4 nC are separated by 3 cm. What is the Coulomb force between the two charges? How many extra electrons does q1 contain?arrow_forward
- Given the magnitude of an electric field directed downward equals 100 N/C. If two point charges (qA and qB), qA=2000 V and qB= 1000V. The charges are located 10 cm apart. What is the field strength at qA?arrow_forward+1.0 uC +4.0 uC -1.0 uC +6.0 µc 13. The drawing shows four charges in which each are placed on the x and y axes. They are all located at the same distance of 5 cm from the origin O. For each of the situations in the drawing, determine the magnitude and direction of the net electric field at the origin. (show each component of the net electric field) (k = 8.99 x 10° Nm2/c2)arrow_forwardCharged particles q1=−q1=− 4.00 nCnC and q2=+q2=+ 4.00 nCnC are separated by distance 3.90 mmmm , forming an electric dipole. Find the magnitude of the electric dipole moment. Express your answer in coulomb meters to three significant figures.arrow_forward
- Three charged particles are placed at the corners of an equilateral triangle of side 1.2 m. The charges are +4 µC, - 8 µC, and -6 µC. Calculate the magnitude and direction of the net force on Q2 and Q3 due to the other two. Show the diagram Given: Q1 = + 4 µC Q2 = - 8 µC Q3 + - 6 µCarrow_forwardThe drawing shows two situations in which charges are placed on the x and y axes. They are all located at the same distance of 7.10 cm from the origin O. For each of the situations in the drawing, determine the magnitude of the net electric field at the origin. +2.0μC -5.0 μC (a) -3.0 μC +4.0 μC +1.0 μC +6.0 με (b) -1.0 μεarrow_forward
arrow_back_ios
arrow_forward_ios