1. Calculate the potentials at nodes A, B, C and D.
2. Based on the theoretical voltages determine the currents through R1, R2, R4 and R6 by applying Ohm's law.
Figure 3: Ladder network
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1. Calculate the potentials at nodes A, B, C
and D.
2. Based on the theoretical...
5. Consider the next circuit with R1 1 kQ, R2 2.2 kQ, R3 3.3 kQ, R4 4.7 kQ and E 10V Using the Oh...
5. Consider the next circuit with R1 1 kQ, R2 2.2 kQ, R3 3.3 kQ, R4 4.7 kQ and E 10V Using the Ohm's law, determine the currents through each of the four resistors and record the values in the next table under the Theory column. Note that the larger the resistor, the smaller the current should be. Also determine and record the total supplied current and the current IX Note that this current should equal the sum of the...
Solve each practice problem. TYPE solutions in engineering notation TYPE solutions in engineering notation. Calcula...
Solve each practice problem. TYPE solutions in
engineering notation
TYPE solutions in engineering
notation.
Calculate the component voltages and branch currents for the circuit shown in Figure 6.40, along with the values of I, and Rr. 3. R3 2 kn R4 4.7 k R1 10 k Vs 26 V R5 3.3 k R2 3 kn FIGURE 6.40 Calculate the component currents and loop voltages for the circuit shown in Figure 6.42, along with the values of I and Rr 5....
a) Determine the total resistance, RT. (4 points) b) Find the source current Is. (2 points)...
a) Determine the total resistance, RT. (4 points) b) Find the source current Is. (2 points) c) Find voltages and currents for each resistor and fill in Table 1. (14 points) R2 R3 1.5k 1k R4 3.3k R 1 2k R7 4.7k 10V R5 8.2k R6 5.6k Figure 1 Table 1 VR4 IR4 R3 R3 IR1 R2 R2 R1 Table 1 Cont'd V R7 R7 R6 R6 V R5 R5
Question 6 3 pts 1. Compare your experimental results to the previously-computed theoretical values. 2. Explain...
Question 6 3 pts 1. Compare your experimental results to the previously-computed theoretical values. 2. Explain your observation from the oscilloscope output waveform. HTML Editor IEE xx E E A B I UA T ECE 12pt Paragraph Use the circuit diagram as shown in Figure A below to conduct the experiment and answer the questions 1 to 6. VCC VCC 15V 15V U2 U1 Voutt R3 1.0k Vout2 741 + 741 R1 2.2kQ VEE 4 VEE -15V Vin 0.75 V(p-p)...
82 AB R2 R1 ww- VB Isie VAB R3 EVsig 81 VB 3 In this circuit,...
82 AB R2 R1 ww- VB Isie VAB R3 EVsig 81 VB 3 In this circuit, Vsig = 26 V, R1 = 52, R2 = 7 2, and R3 2. Use the Node Voltage method to solve the circuit: The nodes, voltages, and currents have been already labeled for you. For each node, write the KCL equation, sum of currents 0. Follow this convention : PLUS currents coming in, MINUS currents going out. For each resistor, write Ohm's Law and...
RESISTOR VALUES: R1=1k, R2=2k, R3=3k, R4=3.9k, R5=5.1k, R6=6.2k, R7=6.8K NUMBERS: 2, 4, & 5 1 Short AB, as shown in...
RESISTOR VALUES: R1=1k, R2=2k, R3=3k, R4=3.9k, R5=5.1k, R6=6.2k,
R7=6.8K
NUMBERS: 2, 4, & 5
1 Short AB, as shown in Figure 3 - 2 (a). Use mesh analysis to calculate the voltage across each resistor and the current through AB, IAB 2. Leave AB open, as shown in Figure 3 - 2 (b). Use nodal analysis to calculate the voltage across each resistor as well as the voltage across AB, VAB 3. Find Thevenin's and Norton's Equivalent using the results...
1) 2) 3) Using Ohm's Law, the answer for 2 is: (don't need an answer for...
1)
2)
3)
Using Ohm's Law, the answer for 2 is: (don't need an answer for
number 3)
4)
R1 V. + R2 12 R3 https://drive.google.com/file/d/1WJUWDo8q7wGCQmwBgMvR04B_SY-MNJNN/view?usp=sharing Consider the circuit in Figure 2. We will assume that both the power supply's potentials V and V, along with the resistors R, through R3 are known quantities where the currents flowing through the circuit are unknown. Since there are three unknown currents in this circuit, three linearly independent equations are needed in order...
Problem 2. (50 points) a) Using nodal analysis (format approach) find the matrix Y and l...
Problem 2. (50 points) a) Using nodal analysis (format approach) find the matrix Y and l of the equation Y× V-I b) Find the unknown node voltages Vi, V2, Vs, and VRI, VR4 of the network in Volt using nodal analysis. Note: The format of the matrix elements is a three digits after decimal point (for example, 0.221); the answers format is three digits after decimal point (for example, 32.223) RI R4 Vi R4 R2 E1-20; I1-12 E3-4.4 R1-40 R2-5...
suppose that R3 and R4 are accidentally swapped in figure 7.2. what is the new Vab...
suppose that R3 and R4 are accidentally swapped in figure 7.2. what
is the new Vab
ZR3 3R2 R4 Figure 7.2 4. Suppose that R3 and R4 are accidentally swapped in Figure 7.2. What is the new VAB? LAIMANA 3 Based on the theoretical voltage found in Table 7 1. determine the current through R1 R2 R4 and RB Record these values in Tab 72 Measure the currents with a DMM compute the deviations and record the results in Table...
I don't understand how the answer for I1=7.99, I2=1.75, & I3=6.24 as theoretical current. Use the...
I don't understand how the answer for I1=7.99, I2=1.75, &
I3=6.24 as theoretical current. Use the number provided in the data
table not the diagram! Thank you
34 LABORATORY 3 4 Kirchhoff's Rules LABORATORY REPORT Data Table 1 Power Supply Voltages V 5.00 V & =_10.00 Calculations Table 1 Kirchhoffs rules for the circuit (1) KCR- (2) KVR1- (3) KVR2- E2 Theoretical Current (mA) % Error Experimental to Theoretical Current Resistor Values (9) Ri= 462 R2= 750 R3 = 1008...
5. Consider the next circuit with R1 1 kQ, R2 2.2 kQ, R3 3.3 kQ, R4 4.7 kQ and E 10V Using the Ohm's law, determine the currents through each of the four resistors and record the values in the next table under the Theory column. Note that the larger the resistor, the smaller the current should be. Also determine and record the total supplied current and the current IX Note that this current should equal the sum of the...
Solve each practice problem. TYPE solutions in
engineering notation
TYPE solutions in engineering
notation.
Calculate the component voltages and branch currents for the circuit shown in Figure 6.40, along with the values of I, and Rr. 3. R3 2 kn R4 4.7 k R1 10 k Vs 26 V R5 3.3 k R2 3 kn FIGURE 6.40 Calculate the component currents and loop voltages for the circuit shown in Figure 6.42, along with the values of I and Rr 5....
a) Determine the total resistance, RT. (4 points) b) Find the source current Is. (2 points) c) Find voltages and currents for each resistor and fill in Table 1. (14 points) R2 R3 1.5k 1k R4 3.3k R 1 2k R7 4.7k 10V R5 8.2k R6 5.6k Figure 1 Table 1 VR4 IR4 R3 R3 IR1 R2 R2 R1 Table 1 Cont'd V R7 R7 R6 R6 V R5 R5
Question 6 3 pts 1. Compare your experimental results to the previously-computed theoretical values. 2. Explain your observation from the oscilloscope output waveform. HTML Editor IEE xx E E A B I UA T ECE 12pt Paragraph Use the circuit diagram as shown in Figure A below to conduct the experiment and answer the questions 1 to 6. VCC VCC 15V 15V U2 U1 Voutt R3 1.0k Vout2 741 + 741 R1 2.2kQ VEE 4 VEE -15V Vin 0.75 V(p-p)...
82 AB R2 R1 ww- VB Isie VAB R3 EVsig 81 VB 3 In this circuit, Vsig = 26 V, R1 = 52, R2 = 7 2, and R3 2. Use the Node Voltage method to solve the circuit: The nodes, voltages, and currents have been already labeled for you. For each node, write the KCL equation, sum of currents 0. Follow this convention : PLUS currents coming in, MINUS currents going out. For each resistor, write Ohm's Law and...
RESISTOR VALUES: R1=1k, R2=2k, R3=3k, R4=3.9k, R5=5.1k, R6=6.2k,
R7=6.8K
NUMBERS: 2, 4, & 5
1 Short AB, as shown in Figure 3 - 2 (a). Use mesh analysis to calculate the voltage across each resistor and the current through AB, IAB 2. Leave AB open, as shown in Figure 3 - 2 (b). Use nodal analysis to calculate the voltage across each resistor as well as the voltage across AB, VAB 3. Find Thevenin's and Norton's Equivalent using the results...
1)
2)
3)
Using Ohm's Law, the answer for 2 is: (don't need an answer for
number 3)
4)
R1 V. + R2 12 R3 https://drive.google.com/file/d/1WJUWDo8q7wGCQmwBgMvR04B_SY-MNJNN/view?usp=sharing Consider the circuit in Figure 2. We will assume that both the power supply's potentials V and V, along with the resistors R, through R3 are known quantities where the currents flowing through the circuit are unknown. Since there are three unknown currents in this circuit, three linearly independent equations are needed in order...
Problem 2. (50 points) a) Using nodal analysis (format approach) find the matrix Y and l of the equation Y× V-I b) Find the unknown node voltages Vi, V2, Vs, and VRI, VR4 of the network in Volt using nodal analysis. Note: The format of the matrix elements is a three digits after decimal point (for example, 0.221); the answers format is three digits after decimal point (for example, 32.223) RI R4 Vi R4 R2 E1-20; I1-12 E3-4.4 R1-40 R2-5...
suppose that R3 and R4 are accidentally swapped in figure 7.2. what
is the new Vab
ZR3 3R2 R4 Figure 7.2 4. Suppose that R3 and R4 are accidentally swapped in Figure 7.2. What is the new VAB? LAIMANA 3 Based on the theoretical voltage found in Table 7 1. determine the current through R1 R2 R4 and RB Record these values in Tab 72 Measure the currents with a DMM compute the deviations and record the results in Table...
I don't understand how the answer for I1=7.99, I2=1.75, &
I3=6.24 as theoretical current. Use the number provided in the data
table not the diagram! Thank you
34 LABORATORY 3 4 Kirchhoff's Rules LABORATORY REPORT Data Table 1 Power Supply Voltages V 5.00 V & =_10.00 Calculations Table 1 Kirchhoffs rules for the circuit (1) KCR- (2) KVR1- (3) KVR2- E2 Theoretical Current (mA) % Error Experimental to Theoretical Current Resistor Values (9) Ri= 462 R2= 750 R3 = 1008...
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