You have a parallel-plate 5.17 × 10-6 F capacitor that is charged to 0.00871 C. While the capacitor is isolated, you change the plate separation so that the capacitance becomes 1.89 × 10-6 F. How much work do you perform in this process?
You have a parallel-plate 5.17 × 10-6 F capacitor that is charged to 0.00871 C. While...
You have a parallel-plate 5.35 × 10-6 F capacitor that is charged to 0.00831 C. While the capacitor is isolated, you change the plate separation so that the capacitance becomes 1.39 × 10-6 F. How much work do you perform in this process?
You have a parallel-plate 6.63 × 10-6 F capacitor that is charged to 0.00831 C. While the capacitor is isolated, you change the plate separation so that the capacitance becomes 1.19 × 10-6 F. How much work do you perform in this process?
You have a parallel-plate 5.75 × 10-6 F capacitor that is charged to 0.00915 C. While the capacitor is isolated, you change the plate separation so that the capacitance becomes 2.45 × 10-6 F. How much work do you perform in this process? ______J
5 A parallel-plate capacitor (Homework #2) A parallel-plate capacitor is made by a pair of plates with area A and separation d. At first, the plates are charged up to+ and - respectively, and then a battery is disconnected. Express all the answers for a) through f only by Q, d, A and s 2d Area A Now the places are pulled apart until the separation becomes 2d What is the electric field E'inside of the capacitor? (Express E" by...
3. Lecture 10: Consider a parallel plate capacitor with capacitance 14 μF. This capacitor is charged to a potential difference of 100 V between the two plates. (a) What is the amount of charge on the plates? (b) For this capacitor the space between the charged plates is filled with neoprene. We proceed to pull out the insulating material: what is the amount of charge on the plates after we pull out the neoprene sheet? (c) How much work did...
A parallel-plate capacitor (Homework #2) A parallel-plate capacitor is made by a pair of plates with area A and separation d. At first, the plates are charged up to +Q and -O respectively, and then a battery is disconnected. Express all the answers for a) through f) only by Q, d, A and 5 +Q 2d -Q Area A a) What is the electric field E inside of the capacitor? b) What is the potential difference V between the plates?...
An isolated parallel-plate capacitor (not connected to a battery) has a charge of Q = 1.2×10−5 .The separation between the plates initially is d = 1.2 mm, and for this separation the capacitance is 3.1×10−11F. Calculate the work that must be done to pull the plates apart until their separation becomes 6.9 mm, if the charge on the plates remains constant. The capacitor plates are in a vacuum.
A parallel plate capacitor is constructed with plate area of 0.40 m2 and a plate separation of 0.10 mm. How much charge is stored on it when it is charged to a potential difference of 12 V? A parallel-plate capacitor is filled with air, and the plates are separated by 0.050 mm. If the capacitance is 17.3 pF, what is the plate area? A parallel plate capacitor is constructed with plate area of 0.0010 m2 and a plate separation of...
A parallel-plate capacitor has capacitance 7.50 ?F. (a) How much energy is stored in the capacitor if it is connected to a 15.00-V battery? ?J (b) If the battery is disconnected and the distance between the charged plates doubled, what is the energy stored? ?J (c) The battery is subsequently reattached to the capacitor, but the plate separation remains as in part (b). How much energy is stored? ?J
A parallel-plate capacitor with circular plates and a capacitance of 13.1 mu F is connected to a battery which provides a voltage of 10 9 V. What is the charge on each plate? How much charge would be on the plates if their separation were doubled while the capacitor remained connected to the battery? How much charge would be on the plates if the capacitor were connected to the battery after the radios of each plate was doubled without changing...