A point charge q = 5 μC is located at r = 0.2 m away from a point of interest. Assuming vacuum permittivity, what is the magnitude of the electric field due to this charge at that point?

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Multiple Choice

A point charge q = 5 μC is located at r = 0.2 m away from a point of interest. Assuming vacuum permittivity, what is the magnitude of the electric field due to this charge at that point?

Explanation:
The electric field from a point charge in vacuum falls off with the square of the distance: E = k q / r^2, where k = 1/(4π ε0) ≈ 8.99×10^9 N·m^2/C^2. With a charge of 5 μC (5×10^-6 C) at a distance of 0.2 m, compute E = (8.99×10^9)(5×10^-6)/(0.2)^2. The numerator is about 4.495×10^4, and dividing by 0.04 gives roughly 1.12×10^6 N/C. The magnitude is about 1.12×10^6 N/C, which reflects how a larger charge increases the field and a larger distance decreases it.

The electric field from a point charge in vacuum falls off with the square of the distance: E = k q / r^2, where k = 1/(4π ε0) ≈ 8.99×10^9 N·m^2/C^2. With a charge of 5 μC (5×10^-6 C) at a distance of 0.2 m, compute E = (8.99×10^9)(5×10^-6)/(0.2)^2. The numerator is about 4.495×10^4, and dividing by 0.04 gives roughly 1.12×10^6 N/C. The magnitude is about 1.12×10^6 N/C, which reflects how a larger charge increases the field and a larger distance decreases it.

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