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CSM153:CIRCUIT THEORY:COS:1187
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Calculate the current IL in the circuit below.
Note that R1 = 2 kΩ R2 = 3 kΩ, R3 = 1.1 kΩ, Ia = 7 mA and Ib = 2 mA.
HINT: Leave your answer in at least 4 decimal places.
In the circuit below, R_1 = 10 Ω,
R_2 = 11 Ω,
R_3 = 13 Ω and
R_4 = 29 Ω. Using this information, determine the total resistance of the circuit.
HINT: Leave your answer in at least 4 decimal places!
In the diagram below, V = 108 V, I = 6 A, R_2 = 10 Ω and
R_3 = 12 Ω. Using this information, what is the value of
R_1?
HINT: Leave your answer in at least 4 decimal places!
In the circuit below, ε = 22 V, R_1 = 40 Ω,
R_2 = 33 Ω,
R_3 = 27 Ω,
R_4 = 34 Ω, and
R_5 = 24 Ω. At what rate is thermal energy being generated in the 24 Ω resistor in the figure below?
In the circuit below, R_1 = 6 Ω,
R_2 = 11 Ω,
R_3 = 15 Ω and
R_4 = 32 Ω. Using this information, determine the total resistance of the circuit.
HINT: Leave your answer in at least 4 decimal places!
In the diagram below, V = 145 V, I = 9 A, R_2 = 15 Ω and
R_3 = 13 Ω. Using this information, what is the value of
R_1?
HINT: Leave your answer in at least 4 decimal places!
In the circuit below, ε = 17 V, R_1 = 37 Ω,
R_2 = 33 Ω,
R_3 = 32 Ω,
R_4 = 26 Ω, and
R_5 = 20 Ω. At what rate is thermal energy being generated in the 20 Ω resistor in the figure below?