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For the circuit shown in the figure, (a) find the current in resistor R1 and (b) find Va-Vi-Let E...
a) Find the voltage and current in each bipole and resistor shown in the circuit by...
a) Find the voltage and current in each bipole and
resistor shown in the circuit by using Maxwell's
method.
b) Verify the results by applying
Kirchhoff's Laws.
R1 = R3 = R5 =
R7 = R9 = 100 Ω
R2 = R4 = R6 =
R8 = R10 = 200 Ω
E1 = E3 = E5 = 9
V
E2 = E4 = 6 V
Ri www R2 www www R9 R7 www R3 Es R: www Ει EA E2 E3...
In the circuit shown below, the emf of the battery E=42 volts; the resistors have values...
In the circuit shown below, the emf of the battery E=42 volts; the resistors have values R1 = 116 12, R2 = 184 12, and R3 = 139 N; and the capacitor has a capacitance C = 5 UF (microfarads). After the switch has been closed for a long time, what is the current supplied to the circuit by the battery? Answer in milliamps to the nearest milliamp, where 1000 milliamps = 1 amp. S R} E I RA С...
2. (10 pts) Calculate the current through the 4 ohm resistor in the circuit if points...
2. (10 pts) Calculate the current through the 4 ohm resistor in the circuit if points (a) and (b) connect to a 12 Volt battery 24 3. (10 pts) Same setup as number 2. Caleulate the voltage across the 24 ohm resistor. 4. (10 pts) We have a series RC circuit. (Rİ 200 ohan, cis 50microfrads. The capacitor is initially uncharged when the switch is closed connecting a 12 Volt battery. Caleulate the voltage across the capacitor after 20 milliseconds....
in the circuit shown below, the emf of the batteries are E1=42 volts, E2= 25 volts,...
in
the circuit shown below, the emf of the batteries are E1=42 volts,
E2= 25 volts, E3=33volts and the resistors have a value of R1= 34
R2=36. initially switch s is open. After the switch is closed, how
much does the current change in resistor R1. Anwer to the nearest
milliamp. If the current increases after the switch is closed imput
answer as positive. if i decreases input answer as negative.
U Question 2 2 pts In the circuit shown...
3, For the dircuit shown in the faure, find the current in resistor Ru, Let E,...
3, For the dircuit shown in the faure, find the current in resistor Ru, Let E, -3.0 V, 6 -8.0 V, 640v R, 25 Ω, and R2 50Ω. the current in resistor R1. Let ει 3.0 V, E2-80 v, ε,-4.0v, e1 A) 1.5 A, left B) 0.25 A, right C) 1.6 A, up D) 0.32 A, right E) 0.16 A, left 4-0 Ry 8 Ri 4. For points A & B in the circuit of the previous problem, find the...
R1 L1 1mH 10Ω V1 C1 Figure 4 LC circuit with a resistor, an inductor, a...
R1 L1 1mH 10Ω V1 C1 Figure 4 LC circuit with a resistor, an inductor, a capacitor and long time before -0, the switch is i inductor, a switch is moved to pole position positio a two-pole switch. For a n pole position B (Cl discon position A at-O. The following questions apply to this cir C1 is disconnected and uncharged). The position A, what is the c urrent in resistor, RI.(6) (a) Before the switch is moved to pole...
Question 2 2 pts In the circuit shown below, the emfs of the batteries are E1=45...
Question 2 2 pts In the circuit shown below, the emfs of the batteries are E1=45 volts, E2=20 volts, and E3=34 volts; and the resistors have values R1 = 302 and R2 = 40 2. Initially switch S is open. After the switch is closed, how much does the current change in resistor R1? Answer to the nearest milliamp, where 1000 milliamps = 1 amp. If the current increases after the switch is closed, input your answer as a positive...
In the circuit shown in the figure below, determine the current in each resistor at the following times. Use r1, r2, an...
In the circuit shown in the figure below, determine the current
in each resistor at the following times. Use r1, r2, and r3 for
R1, R2, and
R3, respectively, and use E for .
(a) at the moment the switch is closed
I1 =
I2 =
I3 =
(b) a long time after the switch is closed
I1 =
I2 =
I3 =
After the switch has been closed a long time, and reopened,
determine each current at the following...
The circuit in the figure below contains two resistors, R1-1.8 kΩ and R2 2.8 k. and...
The circuit in the figure below contains two resistors, R1-1.8 kΩ and R2 2.8 k. and two capacitors, C1-1.7 μF and C3 = 2.5 μF, connected to a battery with emf ε-105 v. If there are no charges on the capacitors before switch s is closed, determine the charges q1 and q2 on capacitors C1 and C2, respectively, as functions of time, after the switch is closed. Hint: First reconstruct the circuit so that it becomes a simple RC circuit...
In the circuit of the figure = 1.90 kV, C = 8.40 μF, R1 = R2 = R3 = 0.770 MΩ
In the circuit of the figure = 1.90 kV, C = 8.40 μF, R1 = R2 =
R3 = 0.770 MΩ. With C completely uncharged, switch S is suddenly
closed (at t = 0). At t = 0, what are (a) current i1 in resistor 1,
(b) current i2 in resistor 2, and (c) current i3 in resistor 3? At
t = ∞ (that is, after many time constants), what are (d)i1, (e)i2,
and (f)i3? What is the potential difference...
a) Find the voltage and current in each bipole and
resistor shown in the circuit by using Maxwell's
method.
b) Verify the results by applying
Kirchhoff's Laws.
R1 = R3 = R5 =
R7 = R9 = 100 Ω
R2 = R4 = R6 =
R8 = R10 = 200 Ω
E1 = E3 = E5 = 9
V
E2 = E4 = 6 V
Ri www R2 www www R9 R7 www R3 Es R: www Ει EA E2 E3...
In the circuit shown below, the emf of the battery E=42 volts; the resistors have values R1 = 116 12, R2 = 184 12, and R3 = 139 N; and the capacitor has a capacitance C = 5 UF (microfarads). After the switch has been closed for a long time, what is the current supplied to the circuit by the battery? Answer in milliamps to the nearest milliamp, where 1000 milliamps = 1 amp. S R} E I RA С...
2. (10 pts) Calculate the current through the 4 ohm resistor in the circuit if points (a) and (b) connect to a 12 Volt battery 24 3. (10 pts) Same setup as number 2. Caleulate the voltage across the 24 ohm resistor. 4. (10 pts) We have a series RC circuit. (Rİ 200 ohan, cis 50microfrads. The capacitor is initially uncharged when the switch is closed connecting a 12 Volt battery. Caleulate the voltage across the capacitor after 20 milliseconds....
in
the circuit shown below, the emf of the batteries are E1=42 volts,
E2= 25 volts, E3=33volts and the resistors have a value of R1= 34
R2=36. initially switch s is open. After the switch is closed, how
much does the current change in resistor R1. Anwer to the nearest
milliamp. If the current increases after the switch is closed imput
answer as positive. if i decreases input answer as negative.
U Question 2 2 pts In the circuit shown...
3, For the dircuit shown in the faure, find the current in resistor Ru, Let E, -3.0 V, 6 -8.0 V, 640v R, 25 Ω, and R2 50Ω. the current in resistor R1. Let ει 3.0 V, E2-80 v, ε,-4.0v, e1 A) 1.5 A, left B) 0.25 A, right C) 1.6 A, up D) 0.32 A, right E) 0.16 A, left 4-0 Ry 8 Ri 4. For points A & B in the circuit of the previous problem, find the...
R1 L1 1mH 10Ω V1 C1 Figure 4 LC circuit with a resistor, an inductor, a capacitor and long time before -0, the switch is i inductor, a switch is moved to pole position positio a two-pole switch. For a n pole position B (Cl discon position A at-O. The following questions apply to this cir C1 is disconnected and uncharged). The position A, what is the c urrent in resistor, RI.(6) (a) Before the switch is moved to pole...
Question 2 2 pts In the circuit shown below, the emfs of the batteries are E1=45 volts, E2=20 volts, and E3=34 volts; and the resistors have values R1 = 302 and R2 = 40 2. Initially switch S is open. After the switch is closed, how much does the current change in resistor R1? Answer to the nearest milliamp, where 1000 milliamps = 1 amp. If the current increases after the switch is closed, input your answer as a positive...
In the circuit shown in the figure below, determine the current
in each resistor at the following times. Use r1, r2, and r3 for
R1, R2, and
R3, respectively, and use E for .
(a) at the moment the switch is closed
I1 =
I2 =
I3 =
(b) a long time after the switch is closed
I1 =
I2 =
I3 =
After the switch has been closed a long time, and reopened,
determine each current at the following...
The circuit in the figure below contains two resistors, R1-1.8 kΩ and R2 2.8 k. and two capacitors, C1-1.7 μF and C3 = 2.5 μF, connected to a battery with emf ε-105 v. If there are no charges on the capacitors before switch s is closed, determine the charges q1 and q2 on capacitors C1 and C2, respectively, as functions of time, after the switch is closed. Hint: First reconstruct the circuit so that it becomes a simple RC circuit...
In the circuit of the figure = 1.90 kV, C = 8.40 μF, R1 = R2 =
R3 = 0.770 MΩ. With C completely uncharged, switch S is suddenly
closed (at t = 0). At t = 0, what are (a) current i1 in resistor 1,
(b) current i2 in resistor 2, and (c) current i3 in resistor 3? At
t = ∞ (that is, after many time constants), what are (d)i1, (e)i2,
and (f)i3? What is the potential difference...
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