In the figure C₁ = 11.0 µF,C₂ = 21.5 µF and C3 = 27.0 µF. If no capacitor can withstand a potential difference of more than 100 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) Number i (b) Number i A Units Units C₁ C₂ C₂ B
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- An arrangement of capacitors is shown in the figure below. (a) If C = 7.20 ✕ 10−5 F, what is the equivalent capacitance between points a and b?F(b) A battery with a potential difference of 21.00 V is connected to a capacitor with the equivalent capacitance. What is the energy stored by this capacitor? JQ.3: Four capacitors are arranged in the following configuration: the capacitances of capacitors are Ci= 3.0µF, C2= 2.0µF, C3= 1.8µF, C4= 3.0µF. The battery voltage is 12.0V. (a) Calculate the equivalent capacitance of the configuration. (b) How much energy is stored in this capacitor configuration? (c) How much energy is stored in capacitor C1? C1The plates of a spherical capacitor have radii 48.4 mm and 52.2 mm. (a) Calculate the capacitance. (b) What must be the plate area of a parallel-plate capacitor with the same plate separation and capacitance? (a) Number i (b) Number i Units Units A
- 7. (a) The space between two parallel plate capacitor is filled with two dielectric materials of same dimensions. What is the resulting capacitance as a function of K₁, K₂ and the original Co when the space in between is empty? (b) What would be the resulting capacitance of the following setup then? Express your answer as a function of K₁, K₂ and the original Co when the space in between is empty?In the figure C₁ = 10.0 μF,C₂ = 22.0 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) Number i (b) Number i AHH C₁ Units Units C₂ G3 BA capacitor is designed as shown in Figure a. Calculate the magnitude of capacitance using the value A = 1 cm2 , d = 2 mm, κ1 = 4.9, κ2 = 5.6, and κ3 = 2.1 b. Calculate stored energy
- B3A parallel plate capacitor consists of two rectangular plates, each with an area of 4.5 cm? and separated from each other by a 2.00 mm thick dielectric with a dielectric constant of 5.26. The capacitor is connected to a 12V battery. How much energy is stored in the capacitor.A parallel-plate capacitor consists of two circular plates that each have a radius of 12 cm, which are separated by a distance of 2.0 mm. What is the capacitance if the space between the plates is filled with paper (K = 3.5)?
- In the figure a potential difference V = 97.0 V is applied across a capacitor arrangement with capacitances C1 = 12.7 µF, C2 = 6.58 µF, and C3 = 3.45 µF. What are (f) U1 for capacitor 1 (In units of Joules) , and (g) q2 (units of UC) , (h) V2? ( units of V)In a parallel-plate capacitor, the two plates each have an area of 0.460 m2 and are spaced 3.00 mm apart.The capacitor is charged to a voltage of 4.00 kV using a power source that is then removed. The gap between the plates is then filled by a dielectric layer. The charge on each plate stays constant at 2.50 kV despite the reduction in the potential difference between the plates.Calculate the initial capacitance value of the system.