In the following diagram containing two charges, Q1 = 2.00 µC is located at (0,3) and Q2 located at (4,0). = - 2.00 µC is (0,3) (4,0) 3. find the electric potential at the origin. a. 2000 V b. 750 V c. 3000 V d. 1500 V e. none of these

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Chapter1: Units, Trigonometry. And Vectors
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In the diagram, there are two point charges. The charge \( Q_1 = 2.00 \, \mu C \) is positioned at coordinates (0, 3) on the Cartesian plane, and the charge \( Q_2 = -2.00 \, \mu C \) is located at coordinates (4, 0).

**Diagram Explanation:**

- The y-axis marks the position of \( Q_1 \) at point (0, 3). This charge is positive.
- The x-axis marks the position of \( Q_2 \) at point (4, 0). This charge is negative.
- Both charges are represented by a circle with a plus (+) for positive and a circle for negative.
- The axes are labeled with \( x \) for the horizontal axis and \( y \) for the vertical axis.

**Problem:**

Calculate the electric potential at the origin (0, 0). The potential options are:

a. 2000 V  
b. 750 V  
c. 3000 V  
d. 1500 V  
e. None of these.
Transcribed Image Text:In the diagram, there are two point charges. The charge \( Q_1 = 2.00 \, \mu C \) is positioned at coordinates (0, 3) on the Cartesian plane, and the charge \( Q_2 = -2.00 \, \mu C \) is located at coordinates (4, 0). **Diagram Explanation:** - The y-axis marks the position of \( Q_1 \) at point (0, 3). This charge is positive. - The x-axis marks the position of \( Q_2 \) at point (4, 0). This charge is negative. - Both charges are represented by a circle with a plus (+) for positive and a circle for negative. - The axes are labeled with \( x \) for the horizontal axis and \( y \) for the vertical axis. **Problem:** Calculate the electric potential at the origin (0, 0). The potential options are: a. 2000 V b. 750 V c. 3000 V d. 1500 V e. None of these.
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