Nodal Analysis Pre-Lab: Circuit 1: In the table below, provide the values of voltages for V (1KN), V (4.7K22), V (2.2K), and V (nodal voltage at node 6), as determined using nodal analysis. Show your calculations in the space below the table. You can work them on a separate sheet of paper and take a picture of your calculations and insert them below. Calculations: 5 R4 ww 1KQ Calculations: V2 5V 5 Figure 1 JV (at node 6)/V (1 ΚΩ)|V (2.2 ΚΩ)|V (4.7 ΚΩ) Calculated 0 R4 ww 1KQ2 6 V2 5V Figure 1. Circuit schematic R7 4.7ΚΩ Circuit 2: In the table below, provide the values of voltages across all the resistors: V (1ΚΩ), V (2.2ΚΩ), V (3.3 ΚΩ), V (4.7ΚΩ), and V (at node 6), as determined using nodal analysis. Show your calculations in the space below the table. You can work them on a separate sheet of paper and take a picture of your calculations and insert them below. 0 6 R8 www 2.2ΚΩ 3.3ΚΩ R7 4.7ΚΩ R8 7 2.2ΚΩ 7 Figure 2. Circuit schematic Figure 2 V (at node 6) V (1 KQ) V (2.2 KM)|V (3.3 KM) V (4.7 KM) Calculated V4 10V V4 10V

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Circuits 1 Pre-lab 3 Q 1-2
Nodal Analysis Pre-Lab:
Circuit 1: In the table below, provide the values of voltages for V (1KQ),
V (4.7KQ), V (2.2KM), and V (nodal voltage at node 6), as determined
using nodal analysis. Show your calculations in the space below the table.
You can work them on a separate sheet of paper and take a picture of your
calculations and insert them below.
Calculations:
5
R4
ww
1KQ
Calculations:
V2
5V
5
Figure 1 | v (at node 6) V (1 ΚΩ) V (2.2 ΚΩ) V (4.7 ΚΩ)
Calculated
0
R4
1KQ2
6
V2
5V
Figure 1. Circuit schematic
R7
4.7ΚΩ
Circuit 2: In the table below, provide the values of voltages across all the
resistors: V (1ΚΩ), V (2.2ΚΩ), V (3.3 ΚΩ), V (4.7ΚΩ), and V (at node
6), as determined using nodal analysis. Show your calculations in the
space below the table. You can work them on a separate sheet of paper and
take a picture of your calculations and insert them below.
0
6
R8
2.2ΚΩ
ww
3.3ΚΩ
R7
4.7ΚΩ
R8
7
2.2ΚΩ
7
Figure 2. Circuit schematic
Figure 2 | v (at node 6) V (1 ΚΩ)|V (2.2 ΚΩ)|V (3.3 ΚΩ) V (4.7 ΚΩ)
Calculated
V4
10V
V4
10V
Transcribed Image Text:Nodal Analysis Pre-Lab: Circuit 1: In the table below, provide the values of voltages for V (1KQ), V (4.7KQ), V (2.2KM), and V (nodal voltage at node 6), as determined using nodal analysis. Show your calculations in the space below the table. You can work them on a separate sheet of paper and take a picture of your calculations and insert them below. Calculations: 5 R4 ww 1KQ Calculations: V2 5V 5 Figure 1 | v (at node 6) V (1 ΚΩ) V (2.2 ΚΩ) V (4.7 ΚΩ) Calculated 0 R4 1KQ2 6 V2 5V Figure 1. Circuit schematic R7 4.7ΚΩ Circuit 2: In the table below, provide the values of voltages across all the resistors: V (1ΚΩ), V (2.2ΚΩ), V (3.3 ΚΩ), V (4.7ΚΩ), and V (at node 6), as determined using nodal analysis. Show your calculations in the space below the table. You can work them on a separate sheet of paper and take a picture of your calculations and insert them below. 0 6 R8 2.2ΚΩ ww 3.3ΚΩ R7 4.7ΚΩ R8 7 2.2ΚΩ 7 Figure 2. Circuit schematic Figure 2 | v (at node 6) V (1 ΚΩ)|V (2.2 ΚΩ)|V (3.3 ΚΩ) V (4.7 ΚΩ) Calculated V4 10V V4 10V
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