A 6.5 μF capacitor is charged by a 170 V battery (see the figure a) and then is disconnected from the C₁ C₁ C₂
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- A professor designing a class demonstration connects a parallel-plate capacitor to a battery, so that the potential difference between the plates is 225 V. Assume a plate separation of d = 1.47 cm and a plate area of A = 25.0 cm². When the battery is removed, the capacitor is plunged into a container of distilled water. Assume distilled water is an insulator with a dielectric constant of 80.0. (a) Calculate the charge on the plates (in pC) before and after the capacitor is submerged. (Enter the magnitudes.) before after AV f (b) Determine the capacitance (in F) and potential difference (in V) after immersion. Cf= = = (c) Determine the change in energy (in nJ) of the capacitor. AU = nJ AV f (d) What If? Repeat parts (a) through (c) of the problem in the case that the capacitor is immersed in distilled water while still connected to the 225 V potential difference. Calculate the charge on the plates (in pC) before and after the capacitor is submerged. (Enter the magnitudes.) before after…In the figure below, capacitor 1 (C₁ Q₂ C₁ = = (a) Find the final charge on each capacitor after a long time has passed. с C 30.0 μF) initially has a potential difference of 55.0 V and capacitor 2 (C₂ = 5.10 μF) has none. The switches are then closed simultaneously. (b) Calculate the percentage of the initial stored energy that was lost when the switches were closed. %Consider the figure below. C2 0.300 uF (a) Find the charge stored on each capacitor in the figure shown above (C, = 11.8 µF, c, = 8.78 µF, and C, = 0.300 µF) when a 2.00 V battery is connected to the combination. Q1 = Q2 = Q3 = C (b) What energy is stored in each capacitor? E = E2 = E3 =
- A 4.50 pF capacitor is connected in series with a 3.00 pF capacitor and a 350 V potential difference is applied across the pair. (a) What is the charge on each capacitor (in nC)? 4.50 pF саpасitor 6.3e-10 X nC 3.00 pF сараcitor 6.3е-10 X nC (b) What is the voltage across each capacitor (in V)? 4.50 pF сараcitor V 3.00 pF сараcitor VAn air-filled 20-µF capacitor has a charge of 60 μC on its plates. How much energy is stored in this capacitor? Ο 80 μ Ο 70 μ Ο 110 μ Ο 100 μ 90 μIn the figure C1= 11.0 µF,C2 = 22.5 µF and C3 = 26.0 µF. If no capacitor can withstand a potential difference of more than 130 V without failure, what is (a) the magni- tude of the maximum potential difference that can exist between points A and B and (b) the maximum energy that can be stored in the three-capacitor arrangement? A B C2 C3
- If the capacitor energy is 280 J, what potential difference (the change in voltage) was used to charge the capacitor?Determine the energy stored in the 60- mF capacitor. 25 uF 50 V 40 uF 60 µF A) 2.4 mJ В) 3.0 m] 3.6 mJ 4.3 m) E) 6.0 mJWhat is the charge on the 6.0 uF capacitor? 3.0 µF 6.0μF 12μF 24μF 18 V