Lab 09: Divider Rules for Voltage and Current

Construct the circuit

1. Measure the actual resistance values and the power supply voltage with a Digital Multimeter (DMM). The display range on the DMM should be chosen so as to obtain the maximum accuracy (i.e. maximum number of digits for the DMM reading). Record your measured values in the table (1a).
   
2. Without making any calculations, what value would you expect for the voltage across each resistor (Using nominal values)? Explain your reasoning and record your result in the following Table (1b).
   
3. Calculate V₁, V₂ and V₃ using the VDR with the measured values from table (1a). Measure V₁, V₂ and V₃ and determine the percent difference between the theoretical and experimental results for V₁. How do they compare? Record your calculations and measured data in the table (1c), (1d) and (1e.1).
4. If R₂ = R₃, then the VDR states the V₂ = V₃. Measure voltages V₂ and V₃, and comment on the validity of these statements.
5. Using VDR, calculate the voltage V_ab. Measure V_ab and determine the percent difference (1e.2) between the theoretical (1c) and experimental results (1d). How do they compare?

Data Table 1: Experimental Results for Exp #1

Construct the circuit

1. Measure the actual resistance values and the power supply voltage with a Digital Multimeter (DMM). The display range on the DMM should be chosen so as to obtain the maximum accuracy (i.e. maximum number of digits for the DMM reading). Record your measured values in the table (2a).
   
2. Without making any calculations, what value would you expect for the current through each of the resistors? Record your results in the table (2b) and explain your reasoning.
   
3. Measure the I_S, I₁, I₂, and I₃ with DMM and record the results in the table (2c). Calculate the currents I₁, I₂, and I₃ using the CDR from the measured value of I_S and measured resistance values. Record your calculations in the table (2d). Then calculate the percent differences between (2c) and (2d) into the table (2e). Explain the reasoning behind the values of all the currents.
4. Based on previous measurements, are your conclusions of Exp #2 verified? Use a percent difference to compare the theoretical (2b) and experimental results (2c).

Data Table 2: Experimental Results for Exp #2

Construct circuit:

1. Measure the resistance for each resistor and power supply voltage using the DMM in DC Voltage Mode (DC V).
   
2. Calculate the voltages V₁, V₂, V₃ and V₄ using the VDR with measured resistor values and voltage from previous table (a). Write your calculation results in the following table (b). Measure the voltages V₁, V₂, V₃ and V₄ and record the measured values in the following table (c). Then use a percent difference to compare the calculated and measured results in table (d). How do they compare?
   
3. Using the previous results in the table (3b), calculate the voltage V_ab using KVL, then write your calculation results in table (3e).
   
4. Measure the voltage V_ab using a DMM (DC Voltage mode) and record the value in the table (f). Then use a percent difference to compare the calculated and measured results. How do they compare? Is the voltage V_ab,expt equal to V₁ – V₃? or equal to V₂ – V₄? Explain your reasoning?
   
   

Challenge

Suppose now that a short is placed across the terminal points ab. Calculate the current I_ab through the short. Measure the current I_ab and use a percent difference to compare the theoretical and experimental results. How do they compare?