Questions 1-3 refer to the figure below. 0.01 m 0.015 m 91 92 93 1. In the Figure q1 = force on q1 due to q2 and q3. E —1 x 10 6 С, q2 — +2 х 10 6 С, and qз — -3 x 10-6 C. Calculate the electric A. 116.6 N y B. 136.6 N â C. 156.6 N ây D. 176.6 N ây 2. In the Figure q1 = -1 × 10–6 C, q2 = +2 × 10–6 C, and q3 = -3 x 10-6 C. Calculate the electric force on q2 due to q and q3. A. 19.9 N â. В. 39.9 N # C. 59.9 N âĝ D. 79.9 N . 3. In the Figure q = -1 × 10–6 C, q2 = +2 × 10–6 C, and q3 = -3 x 10–6 C. Calculate the electric force on q3 due to q1 and q2. A. – 136.6 N â. В. 156.6 N â. C. – 176.6 N â. D. – 196.6 N â.

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# Electric Force Calculation ## Diagram Explanation The figure shows three point charges situated along the x-axis. The charges are labeled \( q_1 \), \( q_2 \), and \( q_3 \). - \( q_1 \) is represented by a negative charge (red) on the left. - \( q_2 \) is a positive charge (blue) positioned in the middle. - \( q_3 \) is another negative charge (red) on the right. The distances between the charges are: - \( q_1 \) to \( q_2 \): 0.01 m - \( q_2 \) to \( q_3 \): 0.015 m ## Questions 1. **Electric Force on \( q_1 \)** - **Charge Values**: \( q_1 = -1 \times 10^{-6} \, \text{C} \), \( q_2 = +2 \times 10^{-6} \, \text{C} \), \( q_3 = -3 \times 10^{-6} \, \text{C} \) - Calculate the electric force on \( q_1 \) due to \( q_2 \) and \( q_3 \). - **Options**: - A. \( 116.6 \, \text{N} \, \mathbf{\hat{x}} \) - B. \( 136.6 \, \text{N} \, \mathbf{\hat{x}} \) - C. \( 156.6 \, \text{N} \, \mathbf{\hat{x}} \) - D. \( 176.6 \, \text{N} \, \mathbf{\hat{x}} \) 2. **Electric Force on \( q_2 \)** - **Charge Values**: \( q_1 = -1 \times 10^{-6} \, \text{C} \), \( q_2 = +2 \times 10^{-6} \, \text{C} \), \( q_3 = -3 \times 10^{-6} \, \text{C} \) - Calculate the electric force on \( q_2 \) due to \( q_1 \) and \( q_3 \). - **Options**