R 2.2 KQ 3.3 ΚΩ Figure 2.0a: Simple DC Circuit VR=> IR => (mA) IR => (mA) VR E A RVR Figure 2.0b: Simple DC Circuit showing Voltmeter & Ammeter connections 4V 6V 8V 10V Theory MultiSIM Theory MultiSIM Theory MultiSIM Theory MultiSIM Theory result result result result result result result result result Table 2.0: Theoretical and MultiSIM results of the Simple DC Circuit in Figure 2.0 V 15V MultiSIM result
R 2.2 KQ 3.3 ΚΩ Figure 2.0a: Simple DC Circuit VR=> IR => (mA) IR => (mA) VR E A RVR Figure 2.0b: Simple DC Circuit showing Voltmeter & Ammeter connections 4V 6V 8V 10V Theory MultiSIM Theory MultiSIM Theory MultiSIM Theory MultiSIM Theory result result result result result result result result result Table 2.0: Theoretical and MultiSIM results of the Simple DC Circuit in Figure 2.0 V 15V MultiSIM result
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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Transcribed Image Text:(a) I-V Characteristics of Ohmic Resistor using a simple D.C. Circuit
(i) Assume varying values of the DC source-voltage, E applied as shown in Figure 2.0.
For each source-
ce-voltage value, use Ohm's Law to determine the corresponding value
of the current, IR when the resistance, R is 2.2 kN and when it is 3.3 kN. Record your
theoretical results in Table 2.0.
Transcribed Image Text:R
E
2.2 ΚΩ
3.3 ΚΩ
+
VR=>
Figure 2.0a: Simple DC Circuit
IR =>
(mA)
IR =>
IR
(mA)
+
RZ VR
E
4V
6V
Theory MultiSIM Theory MultiSIM
result result result result
+
A
IR
R VR
Figure 2.0b: Simple DC Circuit showing
Voltmeter & Ammeter connections
+
Table 2.0: Theoretical and MultiSIM results of the Simple DC Circuit in Figure 2.0
V
8V
10V
15V
Theory MultiSIM Theory MultiSIM Theory MultiSIM
result result result result result result
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