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A parallel-plate capacitor has closely spaced circular plates of radius R = 2.00 cm. Charge is...
A parallel-plate capacitor has closely spaced circular plates of radius R = 2.00 cm. Charge is flowing onto the positive plate at the rate I = dQ/dt = 2.72 A. The magnetic field at a distance r = 2.00 cm from the axis of the plates is approximately A. 136 mT B. 272 mT C. 16.5 mT D. 457 mT
A parallel plate capacitor with circular plates of radius R = 16.0 cm and plate separation d = 9.00 mm is being charged at the rate of 8.00 C/s. What is the displacement current through a circular loop of radius r = 21.00 cm centered on the axis of the capacitor? 8.00 You are correct. What is the displacement current through a circular loop of radius r = 3.00 cm centered on the axis of the capacitor? What is the...
Suppose that, instead of forming a complete ring, the two ends of the wire are connected to the electrodes of a parallel-plate capacitor. The capacitor plates are circular with radius 1.0 cm and separation 1.0 mm. Again, the magnetic field strength is initially B 0.750 T and subsequently decreases in time at the constant rate -0.035 T/s (a) Sketch a charge diagram illustrating the final charge distribution on the capacitor plates When this final distribution is obtained, what is the...
A parallel plate capacitor with circular plates has a radius of 25cm and a plate spacing or 0.2mm. The plates are charged to 90.0V. a) What is the electric field between the plates? The plates are discharged in 0.25ms. b) What is the induced magnetic field 15cm from the axis? c What is the induced magnetic field 30cm from the axis? A parallel plate capacitor with circular plates has a radius of 25cm and a plate spacing or 0.2mm. The...
A parallel plate capacitor is constructed with circular plates of radius 0.750 cm and plate separation 0.0500 mm. If the capacitor is connected across a 37.2 V source, find: a) the capacitance b) the surface charge on each plate c) The energy stored in the capacitor d) the electric field between the plates e) the energy density between the plates
D04 and D05. An air-filled parallel plate capacitor has circular parallel plates each of radius R = 100 cm. They are separated by a distance d = 0.100 cm. The capacitor is part of an RC circuit as shown in the circuit diagram below. The EMF of the battery is 50 V. R = 100 ΜΩ (1ΜΩ = 10 Ω). The switch is initially open and the capacitor is uncharged. 100 MS2 EMF so V SWIT CH DO4. (i) What...
Consider a parallel-plate capacitor constructed from two circular metal plates of radius R. The plates are separated by a distance of 1.5 mm. What radius must the plates have if the capacitance of this capacitor is to be 1.0 μF ? Find the radius of the plates that gives a capacitance of 1.0 μF for a plate separation of 4.0 mm .
The circular plates of a parallel-plate capacitor are 6.00 cm in diameter and are spaced 5.00 mm apart. They are charged by transferring 1.00 x 10" electrons from one plate to the other. What is the electric potential difference between the plates? (A) (B) 2,540 V 2,970 V 3,200 V 3,880 V 4,350 V (D) (E)
As a parallel-plate capacitor with circular plates 22 cm in diameter is being charged, the current density of the displacement current in the region between the plates is uniform and has a magnitude of 16 A/m2. (a) Calculate the magnitude B of the magnetic field at a distance r = 45 mm from the axis of symmetry of this region. (b) Calculate dE/dt in this region.
As a parallel-plate capacitor with circular plates 27 cm in diameter is being charged, the current density of the displacement current in the region between the plates is uniform and has a magnitude of 23 A/m2. (a) Calculate the magnitude B of the magnetic field at a distance r = 80 mm from the axis of symmetry of this region. (b) Calculate dE/dt in this region.