please answer second question

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R3 R5 R1 A D 1k 2.2k 2.2k V1 V2 5Vdc R2 I, 4.7k R4 15Vdc 1k E H Figure1 The circuit shown Figure 1 will be used in this lab to study the Node Voltage and Mesh Current analysis techniques. The definition of each mesh current is given in the figure. For future convenience, the node voltage will be represented as 'Vx', where 'x' represents one node from a list of nodes such as 'A, B, C, D, E, F, G, H'. Write down two sets of symbolic equations leading to solve the circuit using Node voltage (1) and Mesh current methods. Explain which method is preferred to use for calculations.

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(2) Construct the circuit shown in Figure 1. Measure the actual node voltages for all the nodes and generate a table to compare them with the calculated results. (3) Based on the measured node voltages, calculate the mesh currents 1, 12 and 13 and the branch current of R2 and R4. Generate a table to compare calculated results with the simulated current measurement results. Replace the wire connecting nodes E and F with a resistor R6 = 1kQ. Choose the ground node and write down two sets of symbolic equations leading to solve the circuit using Node voltage and Mesh current methods, and explain which method is preferred in this case. (4) (5) Construct the new circuit based on the description of step (4) in the lab assignment. Include the measured resistance R6 in your report. Measure the actual node voltages for all the nodes and generate a table of results. Based on the measured node voltage, calculate the mesh current and the branch current of R2 and R4. Generate a table to compare your results with the simulation results. (6) Use simulation tool to construct the new circuit given in step (4). Use mesh current to calculate the branch current of R2 and R4 and compare it with the directly simulation results. Compare the new node voltage with the node voltage obtained in step (2) and generate a table to summarize the results.