Short Answer
An isolated air-filled parallel-plate capacitor that is no longer connected to anything has been charged up to Q = 2.9 nC.The separation between the plates initially is 1.20 mm,and for this separation the capacitance is 31 pF.Calculate the work that must be done to pull the plates apart until their separation becomes 5.30 mm,if the charge on the plates remains constant.
(ε0 = 8.85 × 10-12 C2/N • m2)
Correct Answer:
Verified
Correct Answer:
Verified
Q1: An ideal parallel-plate capacitor consists of a
Q2: A charge of 2.00 μC flows onto
Q3: In the circuit shown in the figure,the
Q4: Equal but opposite charges Q are placed
Q6: The electric field between square the plates
Q7: Three capacitors are arranged as shown in
Q8: A charged capacitor stores energy U.Without connecting
Q9: When two or more capacitors are connected
Q10: An air-filled capacitor stores a potential energy
Q11: A 6.00-μF parallel-plate capacitor has charges of