(c) Parallel Resistors Circuit - KCL (i) For the circuit of Figure 2.2a, assume the source-voltage, E = 15V, R₁ = 3.3 kN, R₂ = 2.2 k and R3 = 1.0 kn. Determine the expected currents I, I₁, I2 and 13 as shown in Figure 2.2a. Record your theoretical results in Table 2.3. Determine the sum ΣI = (I₁ + I₂+I3) to verify the KCL law.
(c) Parallel Resistors Circuit - KCL (i) For the circuit of Figure 2.2a, assume the source-voltage, E = 15V, R₁ = 3.3 kN, R₂ = 2.2 k and R3 = 1.0 kn. Determine the expected currents I, I₁, I2 and 13 as shown in Figure 2.2a. Record your theoretical results in Table 2.3. Determine the sum ΣI = (I₁ + I₂+I3) to verify the KCL law.
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Transcribed Image Text:(c) Parallel Resistors Circuit - KCL
(i) For the circuit of Figure 2.2a, assume the source-voltage, E = 15V, R₁ = 3.3 kN, R2=
2.2 k and R3 = 1.0 k№. Determine the expected currents I, I₁, I2 and 13 as shown in
Figure 2.2a. Record your theoretical results in Table 2.3. Determine the sum ΣI = (1₁
+ 1₂+13) to verify the KCL law.
Transcribed Image Text:E
VE
15V
R3
10-0
R₁
I (mA)
Theory MultiSIM
result
result
R₂
Figure 2.2a: KCL Parallel Circuit
I₁ (mA)
Theory MultiSIM
result
result
I₂ (mA)
Theory MultiSIM
result
result
A
R₁
R₂
Figure 2.2b: KCL Parallel Circuit with
Ammeter & Voltmeter connections
Table 2.3: Theoretical and MultiSIM results of the Parallel Circuit in Figure 2.2
A
I3 (mA)
ΣI = (I₁ + 1₂ + 13)
Theory MultiSIM Theory MultiSIM
result
result result
result
R3
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