GND ΤΩ Addition of two 4.7 k ohm resistors in series 1. Calculate the equivalent resistance V-IR 4.7kohm +4.7kohm = 9.4kolum 2. Calculate the expected current flowing through each resistor using Ohms law I-V/R 3.3/9.4 0.351mA 3. Measure the actual current using G+/G-terminal 0.351mA Save & Go Next Acquisition Sets Run2 (0:2004-106-44-8213-08-630672114) [Remove] High Gain (200 Hz) Remote 1 A(MM) 02 0.0 02 -0.4 -0.6 -0.0 -10 -12 -14 -1.6 10 12 14 16 18 20 22 24 26 28 30 Time (3) 3.3 GND 4.7 k 102 10 10 k 102 ww 10 k 4.7 k Acquisition Sets Run1 (ID: 07ddc029-203f-409d-9751-5aab12edbd3d) [Remove] High Gain (200 Hz) Remote 1 1.0 0.8 0.6 0.4 G+ G- 0.2 Connect as needed 0.0 for three measurements -0.2 -0.4 -0.6 -0.8 2 4 6 8 10 12 14 16 18 20 22 24 Time (s) * ✔ Combination circuit data Note that: You will move the G+/G- probes to successively measure across each of the three 1 resistors, thereby yielding three current measurements to compare against your calculations. (INDICATED AS A) 1. Calculate the equivalent resistance of the circuit using the resistor addition formula 3.3/10kohm = 0.1651 mA 2. Predict the current flowing throughout the circuit using Itotal=3.3/9.7kohm = 0.3402 mA 3. Measure the current through top 10 k ohm resistor 3.3/10kohm = 0.1651 mA 4. Measure the current through bottom 10 k ohm resistor 3.3/10kohm = 0.1651 mA 5. Measure the current through top 4.7 k ohm resistor R2 is in series, so IR2 = Itotal = 0.3402mA 6. Measure the current through side 4.7 k ohm resistor 0.3402 mA

Compare theoretical values to measured values for error analysis 

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GND ΤΩ Addition of two 4.7 k ohm resistors in series 1. Calculate the equivalent resistance V-IR 4.7kohm +4.7kohm = 9.4kolum 2. Calculate the expected current flowing through each resistor using Ohms law I-V/R 3.3/9.4 0.351mA 3. Measure the actual current using G+/G-terminal 0.351mA Save & Go Next Acquisition Sets Run2 (0:2004-106-44-8213-08-630672114) [Remove] High Gain (200 Hz) Remote 1 A(MM) 02 0.0 02 -0.4 -0.6 -0.0 -10 -12 -14 -1.6 10 12 14 16 18 20 22 24 26 28 30 Time (3)

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3.3 GND 4.7 k 102 10 10 k 102 ww 10 k 4.7 k Acquisition Sets Run1 (ID: 07ddc029-203f-409d-9751-5aab12edbd3d) [Remove] High Gain (200 Hz) Remote 1 1.0 0.8 0.6 0.4 G+ G- 0.2 Connect as needed 0.0 for three measurements -0.2 -0.4 -0.6 -0.8 2 4 6 8 10 12 14 16 18 20 22 24 Time (s) * ✔ Combination circuit data Note that: You will move the G+/G- probes to successively measure across each of the three 1 resistors, thereby yielding three current measurements to compare against your calculations. (INDICATED AS A) 1. Calculate the equivalent resistance of the circuit using the resistor addition formula 3.3/10kohm = 0.1651 mA 2. Predict the current flowing throughout the circuit using Itotal=3.3/9.7kohm = 0.3402 mA 3. Measure the current through top 10 k ohm resistor 3.3/10kohm = 0.1651 mA 4. Measure the current through bottom 10 k ohm resistor 3.3/10kohm = 0.1651 mA 5. Measure the current through top 4.7 k ohm resistor R2 is in series, so IR2 = Itotal = 0.3402mA 6. Measure the current through side 4.7 k ohm resistor 0.3402 mA