A point charge q- +43.0 µC moves from A to B separated by a distance d= 0.188 m in the presence of an external electric field E of magnitude 255 N/C directed toward the right as in the following figure. T G (a) Find the electric force exerted on the charge. magnitude direction -Select- (b) Find the work done by the electric force. (c) Find the change in the electric potential energy of the charge. (d) Find the potential difference between A and B. Va-VA- The figure below shows two charged particles separated by a distance of d = 1.50 cm. The charges are q₁-20.0 nC and 9₂ = 26.5 nC. Point B is at the midpoint between the two charges, and point A is at the peak of an equilateral triangle, with each side of length d, as shown. (Assume the zero of electric potential is at infinity.) d 60.0⁰ B 9₂ O (a) What is the electric potential (in kV) at point A? kV (b) What is the electric potential (in kV) at point B? kv

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**Educational Website Content: Electric Charge and Potential Energy** The diagram illustrates two charged particles separated by a distance of **1.50 cm**. The charges are positioned at an equilateral triangle, with each side measuring **d** as shown. The specific charges are: - \( q_1 = -20.0 \, \text{nC} \) - \( q_2 = +25.0 \, \text{nC} \) Point \( A \) is at the peak of the equilateral triangle, and point \( B \) is the midpoint between the two charges. Assume the zero of electric potential is at infinity. 1. **Electric Potential Calculations:** - **(a)** Determine the electric potential (in kV) at point \( A \). - **(b)** Determine the electric potential (in kV) at point \( B \). 2. **Electric Field and Force:** - A point charge \( q = +3.40 \, \mu \text{C} \) moves from \( A \) to \( B \) through an external field, \( \vec{E} \), of magnitude **235 N/C** directed to the right. - **(c)** Find the magnitude and direction of the electric force exerted on the charge. - **(d)** Find the work done by the electric force. - **(e)** Find the change in electric potential energy of the charge. **Diagrams in the Image:** - The first diagram illustrates point \( A \) at the top of the triangle and point \( B \) between the two charges \( q_1 \) and \( q_2 \). All sides of the triangle are labeled as \( d \). - The second diagram (to the right) shows the point charge \( q \) moving horizontally from \( A \) to \( B \) under the influence of the external electric field \( \vec{E} \). This setup demonstrates key principles in electric fields and potentials, allowing students to explore the interactions between charges, electric forces, and changes in potential energy.