R2 = 10 Ω
Figure shows a battery with emf 15 V in a circuit with R1 = 30 Ω, R2 = 10 Ω, R3 = 20 Ω and capacitance C=10μF. The switch S is initially in the open position and is then closed at time t= 0. What will be the fimal steady – state charge on capacitor?
11
Nov
Figure shows a battery with emf 15 V in a circuit with R1 = 30 Ω, R2 = 10 Ω, R3 = 20 Ω and capacitance C=10μF. The switch S is initially in the open position and is then closed at time t= 0. What will be the fimal steady – state charge on capacitor? [...]
In the circuit shows in Fig. , E = 10 V, R1 = 5 Ω, R2 = 10 Ω, and L = 5 H. For the two separate conditions, (i) switch S is just closed and (ii) switch S is closed for a long time, calculate a. current i1 through R1, b. current i2 through R2, c. current i through the switchs, d. the potential difference across R2, e. the potential difference across L, f. di2/dt.
22
Oct
In the circuit shows in Fig. , E = 10 V, R1 = 5 Ω, R2 = 10 Ω, and L = 5 H. For the two separate conditions, (i) switch S is just closed and (ii) switch S is closed for a long time, calculate a. current i1 through R1, b. current i2 through [...]
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(i) switch S is just closed and (ii) switch S is closed for a long time ,
and L = 5 H. For the two separate conditions ,
b. current i2 through R2 ,
c. current i through the switchs ,
calculate a. current i1 through R1 ,
d. the potential difference across R2 ,
E = 10 V ,
e. the potential difference across L ,
f. di2/dt. ,
In the circuit shows in Fig. ,
R1 = 5 Ω ,
R2 = 10 Ω ,