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2. Use the below Graph to plot the I-V characteristics for each resistor using the calculated and measured values listed in Table 2.4a and Table 2.4b, respectively. Then:- (a) For the experiment values plotted, estimate the slope of each I-V graph and determine the resistance from the slope. Compare these values with your DMM measured (actual) resistance values. Explain any discrepancies. (b) Is the I-V characteristics of each resistor consistent with the Ohm's law? Explain.

2. Use the below Graph to plot the I-V characteristics for each resistor using the calculated and measured values listed in Table 2.4a and Table 2.4b, respectively. Then:- (a) For the experiment values plotted, estimate the slope of each I-V graph and determine the resistance from the slope. Compare these values with your DMM measured (actual) resistance values. Explain any discrepancies. (b) Is the I-V characteristics of each resistor consistent with the Ohm's law? Explain.

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Please answer Question 2 parts a and b including all calculations and steps, all the information is provided. Remember to plot the characteristics for both the 2.2k and 3.3k ohm resistors. Thank you!

Color-coded value of R=2.2kQ => Actual measured value of R=2.204kQ? 6V VR (Volts) IR (mA) as measured IR (mA) as calculated in Pre-Lab using color-coded R value Deviation (%) 100.(measured - calculated)/(calculated) Table 2.4a: Experimental results of the Simple DC Circuit in Figure 2.0 with R = 2.2 kN 4V 8V 10V 15V 1.822 mA 2.738 mA 3.641 mA 4.595m 6.827 A 1.818 mA 2.727 mA 3.636 mA 4.545 mA 6.818 MA 0.403% 0.138% 1.100% 0.132 % 0.220% Color-coded value of R = 3.3k => Actual measured value of R=3,312122 4V 6V 8V 10V 15V 1.224 mA 1,843 mA 2.441 mA 3.038mA 4.566 ma 1.212 mA | 1.818 mA | 2.424 mA 3.03 mA 4.545 mA. 0.990% 1.375% 0.701% 0.264% 0.462% VR (Volts) IR (mA) as measured IR (MA) as calculated in Pre-Lab using color-coded R value Deviation (%) 100.(measured - calculated)/(calculated) Table 2.4b: Experimental results of the Simple DC Circuit in Figure 2.0 with R = 3.3 kN
Transcribed Image Text:Color-coded value of R=2.2kQ => Actual measured value of R=2.204kQ? 6V VR (Volts) IR (mA) as measured IR (mA) as calculated in Pre-Lab using color-coded R value Deviation (%) 100.(measured - calculated)/(calculated) Table 2.4a: Experimental results of the Simple DC Circuit in Figure 2.0 with R = 2.2 kN 4V 8V 10V 15V 1.822 mA 2.738 mA 3.641 mA 4.595m 6.827 A 1.818 mA 2.727 mA 3.636 mA 4.545 mA 6.818 MA 0.403% 0.138% 1.100% 0.132 % 0.220% Color-coded value of R = 3.3k => Actual measured value of R=3,312122 4V 6V 8V 10V 15V 1.224 mA 1,843 mA 2.441 mA 3.038mA 4.566 ma 1.212 mA | 1.818 mA | 2.424 mA 3.03 mA 4.545 mA. 0.990% 1.375% 0.701% 0.264% 0.462% VR (Volts) IR (mA) as measured IR (MA) as calculated in Pre-Lab using color-coded R value Deviation (%) 100.(measured - calculated)/(calculated) Table 2.4b: Experimental results of the Simple DC Circuit in Figure 2.0 with R = 3.3 kN
2. Use the below Graph to plot the I-V characteristics for each resistor using the calculated and measured values listed in Table 2.4a and Table 2.4b, respectively. Then:- IR (0.5mA/div.) (a) For the experiment values plotted, estimate the slope of each I-V graph and determine the resistance from the slope. Compare these values with your DMM measured (actual) resistance values. Explain any discrepancies. (b) Is the I-V characteristics of each resistor consistent with the Ohm's law? Explain. VR (1.0V/div.) workspace
Transcribed Image Text:2. Use the below Graph to plot the I-V characteristics for each resistor using the calculated and measured values listed in Table 2.4a and Table 2.4b, respectively. Then:- IR (0.5mA/div.) (a) For the experiment values plotted, estimate the slope of each I-V graph and determine the resistance from the slope. Compare these values with your DMM measured (actual) resistance values. Explain any discrepancies. (b) Is the I-V characteristics of each resistor consistent with the Ohm's law? Explain. VR (1.0V/div.) workspace
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