4. Toroidal solenoid #1 has mean radius r 1 - 40.0 cm, and cross-sectional area A1 - 16.0 cm? It is wound uniformly with N - 1000 turns of wire. Toroidal solenoid #2 has N2 = 100 turns of wire and is wound tightly around solenoid #1. If the current through the windings of toroidal solenoid #1 is changing at a rate of 1000 A/s, what is the emf induced in toroidal solenoid #2 (in mV)? (A) 43.5 (B) 60.0...
4. Toroidal solenoid #1 has mean radius r 1 = 40.0 cm, and cross-sectional area A2 = 16.0 cm2. It is wound uniformly with N4 = 1000 turns of wire. Toroidal solenoid #2 has N2 = 100 turns of wire and is wound tightly around solenoid #1. If the current through the windings of toroidal solenoid #1 is changing at a rate of 1000 A/s, what is the emf induced in toroidal solenoid #2 (in mV)? (A) 43.5 (B) 60.0...
7. In the circuit below, R = 10.0 12, L = 30.0 H, and { = 20.0 V. Switch S1 is closed and switch S2 is left open. After the current has reached its final value, switch Si is opened and switch S2 is closed. What is the magnitude of the potential difference between points a and b three seconds after S2 is closed (in V)? (A) 3.89 (B) 9.12 (C) 2.00 (D) 7.36 (E) 6.54 (F) 1.00 E si...
7. In the circuit below, R = 10.00, L = 30.0 H, and € = 20.0 V. Switch Si is closed and switch Sz is left open. After the current has reached its final value, switch Si is opened and switch S2 is closed. What is the magnitude of the potential difference between points a and b three seconds after S2 is closed (in V)? (A) 3.89 (B) 9.12 (C) 2.00 (D) 7.36 (E) 6.54 (F) 1.00 E Si Sa...
7. In the circuit below, R = 10.0 2, L = 30.0 H, and € = 20.0 V. Switch Si is closed and switch Sz is left open. After the current has reached its final value, switch Si is opened and switch S2 is closed. What is the magnitude of the potential difference between points a and b three seconds after S2 is closed (in V)? (A) 3.89 (B) 9.12 (C) 2.00 (D) 7.36 (E) 6.54 (F) 1.00 E SI...
7. In the circuit below, R = 10.0 N, L = 30.0 H, and E = 20.0 V. Switch S1 is closed and switch S2 is left open. After the current has reached its final value, switch Si is opened and switch Sz is closed. What is the magnitude of the potential difference between points a and b three seconds after S2 is closed (in V)? (A) 3.89 (B) 9.12 (C) 2.00 (D) 7.36 (E) 6.54 (F) 1.00 Si Sa...
7. In the circuit below, R = 10.0 0, L = 30.0 H, and € = 20.0 V. Switch Si is closed and switch Sz is left open. After the current has reached its final value, switch S1 is opened and switch S2 is closed. What is the magnitude of the potential difference between points a and b three seconds after Sz is closed (in V)? (A) 3.89 (B) 9.12 (C) 2.00 (D) 7.36 (E) 6.54 (F) 1.00 s Sa...
7. In the circuit below, R = 10.0 0, L = 30.0 H, and E = 20.0 V. Switch S1 is closed and switch Sz is left open. After the current has reached its final value, switch Si is opened and switch Sz is closed. What is the magnitude of the potential difference between points a and b three seconds after S2 is closed (in V)? (A) 3.89 (B) 9.12 (C) 2.00 (D) 7.36 (E) 6.54 (F) 1.00 E si...
4. Toroidal solenoid #1 has mean radius r 1 = 40.0 cm, and cross-sectional area A1 = 16.0 cm2. It is wound uniformly with N1 = 1000 turns of wire. Toroidal solenoid #2 has N2 = 100 turns of wire and is wound tightly around solenoid #1. If the current through the windings of toroidal solenoid #1 is changing at a rate of 1000 A/s, what is the emf induced in toroidal solenoid #2 in mV)?
In the circuit below, R=10.0 ohms, L=30.0 h, and E=20v. switch s1 is closed and switch s2 is left open. After the circuit has reached its final value switch s1 is opened and switch s2 is closed. what is the magnitude of the potential difference between points a and b three seconds after s2 is closed (inV). 7. In the circuit below, R = 10.0 12, L = 30.0 H, and ε = 20.0 V. Switch S1 is closed and...