The figure and table below are used in Questions 10-22. The figure shows the equ

Question

The figure and table below are used in Questions 10-22. The figure shows the equipotentials for each integer voltage between and including –4 V and +4 V for an arrangement of charges as shown. Assume that -4 V is the minimum potential and +4 V is the maximum for any point within the diagram. The table gives the closest distance from a point to a neighboring equipotential, either the one that is one volt lower or the one that is one volt higher. DOES ANYONE KNOW HOW TO DO THIS!!

To one decimal place, what is the best approximation to the electric field magnitude in V/cm at point b ?

To one decimal place, what is the best approximation to the electric field magnitude in V/cm at point c ?

To one decimal place, what is the best approximation to the electric field magnitude in V/cm at point d?

To one decimal place, what is the best approximation to the electric field magnitude in V/cm at point e?

To one decimal place, what is the best approximation to the electric field magnitude in V/cm at point f ?

To one decimal place, what is the best approximation to the electric field magnitude in V/cm at point g ?

To one decimal place, what is the best approximation to the electric field magnitude in V/cm at point h ?

To one decimal place, what is the best approximation to the electric field magnitude in V/cm at point i ?

To one decimal place, what is the best approximation to the electric field magnitude in V/cm at point j ?

1.5

point lower (cm) higher(cm) b 0.3 0.3 c 0.6 2.1 d 0.6 1.5 e 0.3 0.3 f 0.3 0.4 g 0.65 1.7 j 0.5 0.6 k 1.5 0.6 l 0.6

1.5

Explanation / Answer

I understood you question
But I need figure to solve it completely. Please mention figure in comment section
I will answer it there itself

Hope it helps :)

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