The three resistors in the figure are R1 = 25 Ω, R2 = 50 and R3 = 100 Ω.
A) what is the total resistance of the circuit?
B) what are the currents currents I1, I2 and I3 for a 12V battery?
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The three resistors in the figure are R1 = 25 2, R2 = 50 and R3 = 100 1. a) What is the total resistance of the circuit? b) What are the currents 11, 12 and 13 for a 12V battery E = 12 V R R₂ 12 R3 1
Three resistors, R1=500 ohms, R2= 1500 ohms and R3=25 ohms are
connected shown in Fig2 with a 40V battery. Find a) Req,
b) I1, I2, I3 c) check the power
balance in the circuit.
2 4o v 2
Consider the three resistors R1=11 Ω, R2=29 Ω, and R3=77 Ω in the configuration shown in the figure. A potential difference ΔV=3.5 V is applied between A and B Part (a) Express the equivalent resistance Re of the combination of R2 and R3 in terms of R2 and R3.Part (b) Express the total resistance R off the combination of all three resistors in terms of R1, R2 and R3Part (c) Calculate the numerical value ofthe total resistance R in Ω.Part (d)...
For the above circuit, E1 = 3.57 V, E2 = 5.79 V.
r1 = 0.591 Ω, r2 = 0.781 Ω, R1 = 41.3 Ω, R2 = 65.1 Ω, R3 = 73.3
Ω.
a)Which equation would describe Kirchhoff's Junction Law at the
right junction?
A I1 - I2 = I3
B I1 + I2 = I3
C I1 + I3 = I2
D I1 = I2 + I3
b)Which equation would describe Kirchhoff's Loop Law for the
lower half-loop?
A E2...
Three resistors (R1 = 6 Ω, R2 = 20 Ω and
R3 = 8 Ω) are connected in a circuit as shown in the
figure. What is the magnitude of the current in the
R3 in the middle branch of the circuit
if ε1 = 8 V and ε2 = 20 V?
Hint: Use Kirchhoff's rules.
R & R3 E2 R2
In the figure, ε = 119 V, R1 = 10.7 Ω,
R2 = 23.8 Ω, R3 = 26.2 Ω,
and L = 2.70H. Immediately after switch S is closed, what
are (a) i1 and
(b) i2? (Let currents in the
indicated directions have positive values and currents in the
opposite directions have negative values.) A long time later, what
are (c) i1 and
(d) i2? The switch is then
reopened. Just then, what are (e)
i1 and (f)
i2? A...
IP Three resistors, R1 = 15 Ω , R2 = 62 Ω , and R3=R, are connected in series with a 24.0 V battery. The total current flowing through the battery is 0.15 A . Find the value of resistance R. Find the potential difference across each resistor.
The circuit shown in the figure below contains three resistors (R1, R2, and R3) and three batteries (VA. VB, and Vc). The resistor values are: R1-2 Ohms, R2=R3=4 Ohms, and the battery voltages are Va=25 V, Ve=15 V, and Vc=20 V. When the circuit is connected, what will be the power dissipated by Ry? Vc R1 VA VB R2 RE 1.25 W 2.0W 12.5 W 6.25 W 8.13 W
The circuit shown in the figure below contains three resistors (R1, R2, and R3) and three batteries (VA, VB, and Vc). The resistor values are: R1=2 Ohms, R2=R3=6 Ohms, and the battery voltages are VA=25 V, V8=15 V, and Vc=20 V. When the circuit is connected, what will be the power dissipated by R2? VC RE ş VA VE R2 m R3 O 1.0W O 2.0 W O 5.0 W 6.0 W O 7.5 W
Three resistors are connected in series to a 12V battery. If R1 = 2 Ω, R2 = 4 Ω, and R3 = 10 Ω, find: the current out of the battery the potential difference across R1 the potential difference across R2 the potential difference across R3 the potential difference across R1 and R2 the potential difference across R1, R2, and R3