In the following diagram containing two charges, Q1 2.00 µC is located at (0,3) and Q2 =- 2.00 µCi located at (4,0). !! 49 (0,3) (4,0) 7. 2. Find the magnitude of electric field at the origin (0,0). a. 2295 V/m b. 3277 V/m c. 1147 V/m d. 3552 V/m e. none of these 3. find the electric potential at the origin. a. 2000 V b. 750 V с. 3000 V d. 1500 V e. none of these 4. find the electric potential energy of the two particle system. c. -0.0036 J a. -0.0072 J b.-0.0014 J d.-0.0045 J e. 0.0027 J

Question 3 and 4 

Number 2 is 2295 for magnitude

 

Thank you

Transcribed Image Text:

### Diagram Description The diagram shows a coordinate plane with two charges, \( Q_1 = 2.00 \, \mu C \) located at the point (0,3) on the y-axis, and \( Q_2 = -2.00 \, \mu C \) located at (4,0) on the x-axis. These charges are represented by the symbols \(\oplus\) for \(Q_1\) and \(\ominus\) for \(Q_2\). ### Questions 1. **Find the magnitude of the electric field at the origin (0,0).** - a. 2295 V/m - b. 3277 V/m - c. 1147 V/m - d. 3552 V/m - e. none of these 2. **Find the electric potential at the origin.** - a. 2000 V - b. 750 V - c. 3000 V - d. 1500 V - e. none of these 3. **Find the electric potential energy of the two-particle system.** - a. \(-0.0072 \, J\) - b. \(-0.0014 \, J\) - c. \(-0.0036 \, J\) - d. \(-0.0045 \, J\) - e. \(0.0027 \, J\) 4. **How much work is required to move \(Q_1\) from (0,3) to (-4,0)?** - a. \(-0.0072 \, J\) - b. \(-0.0014 \, J\) - c. \(-0.0036 \, J\) - d. \(-0.0045 \, J\) - e. \(0.0027 \, J\) 5. **Find the electric force between \(Q_1\) and \(Q_2\).** - a. \(1.44 \times 10^{-3} \, N\) - b. \(2.88 \times 10^{-3} \, N\) - c. \(1.75 \times 10^{-