As a member of the safety group for the space shuttle scientific program, you have been asked to evaluate an electronics design change. A small part of the circuit includes a system of capacitors that clearly could be simplify by the use of a single capacitor. Your boss wonder what the potential difference and charge would be on that single capacitor and how it would compare to the potential difference and charge of the four other capacitors. You figure it is easier to first find the equivalent capacitance. Your time is very valuable (and your salary very high), each capacitor looks to be similar enough and you probably only need to calculate the potential and charge of a single one. 9 V Capacitors A and C are 2 uF each. Capacitors B and D are 4 uF each. The battery shown has a voltage of 9 V across its terminals

As a member of the safety group for the space shuttle scientific program, you have been asked to evaluate an electronics design change. A small part of the circuit includes a system of capacitors that clearly could be simplify by the use of a single capacitor. Your boss wonder what the potential difference and charge would be on that single capacitor and how it would compare to the potential difference and charge of the four other capacitors. You figure it is easier to first find the equivalent capacitance. Your time is very valuable (and your salary very high), each capacitor looks to be similar enough and you probably only need to calculate the potential and charge of a single one. 9 V Capacitors A and C are 2 uF each. Capacitors B and D are 4 uF each. The battery shown has a voltage of 9 V across its terminals