Three point charges are arranged in the configuration below. Each grid is 1 m.5)

Question

Three point charges are arranged in the configuration below. Each grid is 1 m.5)  What is the potential at the origin from all three of these charges? 9000 V 18000 V 27000 V 36000 V 45000 V6)  What is the total potential energy of all of these charges? -0.091 J -0.123 J -0.245 J -0.352 J -0.469 JThe next nine questions pertain to the following situation.7)  Capacitors C2 and C3 are: In parallel In series Neither in parallel nor in series8)  Compare V2 the potential across capacitor 2 with V3 the potential across capacitor 3. |V2| is less than |V3| |V2| is equal to |V3| |V2| is greater than |V3|9)  Compare V1 the potential across capacitor 1 with V5 the potential across capacitor 5. |V1| is less than |V5| |V1| is equal to |V5| |V1| is greater than |V5|10)  Compare Q1 the charge on capacitor 1 with Q5 the charge on capacitor 5. |Q1| is less than |Q5| |Q1| is equal to |Q5| |Q1| is greater than |Q5|11)  What is the equivalent Capacitance of the entire network? C = 3.2x10-6F C = 7.6x10-6F C = 11.8x10-6F C = 15.0x10-6F C = 22.3x10-6F12)  Calculate the charge Q1, on the positive plate of capacitor C1. q=10.3x10-6C q=20.4x10-6C q=33.8x10-6C q=45.8x10-6C q=60.7x10-6C13)  Calculate the charge Q4, on the positive plate of capacitor C4. q=10.3x10-6C q=20.4x10-6C q=33.8x10-6C q=45.8x10-6C q=60.7x10-6C14)  Calculate the voltage V2, across capacitor C2. 0.50 V 0.92 V 2.56 V 4.58 V 6.00 V15)  What is the total energy stored in this capacitor network? 137x10-6 J 245x10-6 J 313x10-6 J 483x10-6 J 600x10-6 J Three point charges are arranged in the configuration below. Each grid is 1 m. What is the potential at the origin from all three of these charges? What is the total potential energy of all of these charges? The next nine questions pertain to the following situation. Capacitors C2 and C3 are: Compare V2 the potential across capacitor 2 with V3 the potential across capacitor 3. Compare V1 the potential across capacitor 1 with V5 the potential across capacitor 5. Compare Q1 the charge on capacitor 1 with Q5 the charge on capacitor 5. What is the equivalent Capacitance of the entire network? Calculate the charge Q1, on the positive plate of capacitor C1. Calculate the charge Q4, on the positive plate of capacitor C4. Calculate the voltage V2, across capacitor C2. What is the total energy stored in this capacitor network?

Explanation / Answer

5) 27000V

6) -0.091 J

7) In parallel

8) |V2| is equal to |V3|

9) |V1| is greater than |V5|

10) |Q1| is greater than |Q5|

11) C = 7.6x10-6F

12) q=45.8x10-6C

13) q=20.4x10-6C

14) 0.92 V

15) 137x10-6 J

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