Two charges, q₁ = −20 nC and q₂ = 28.0 nC, are separated by a distance d = 2.50 cm as shown in the figure.

the electric potential (in kV) at point A?

the electric potential (in kV) at point B, which is halfway between the charges

 

Transcribed Image Text:

This diagram represents an equilateral triangle formation with charges placed at the vertices and midpoint of one side. Let's describe each element in detail: 1. **Vertices and Charges**: - Vertex \( A \): This point is located at the top of the equilateral triangle. - Vertex \( q_1 \): This point is positioned at the left-bottom corner of the triangle and represents a charge \( q_1 \), which is negative (indicated by a minus sign). - Vertex \( q_2 \): This point is situated at the right-bottom corner of the triangle and represents a charge \( q_2 \), which is positive (indicated by a plus sign). 2. **Distances and Angles**: - Each side of the equilateral triangle is labeled as \( d \), indicating that all sides are of equal length. - The internal angle between \( q_1 \) and \( q_2 \) at point \( B \) is \( 60.0^\circ \). 3. **Midpoint**: - Point \( B \): The midpoint of the base \( q_1 \) to \( q_2 \). 4. **Triangle Configuration**: - The distances between the charges \( q_1 \), \( q_2 \), and point \( A \) are all equal to \( d \). This setup is common in physics problems dealing with electrostatic forces and potential within electric fields, especially focusing on the behavior of charges in symmetric formations.