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Laboratory Measurements Make the circuit 2.1. Measure the voltages and currents and record the measured values...
Calculate the required values for the series circuit then build and measure the values: Built Correctly...
Calculate the required values for the series circuit then build and measure the values: Built Correctly (20 pts) R1 = 270ohm Serces Same voltage Sane Voltage VTS Vdc R2 = 560 ohm R3 = 820 ohm 두 - sere, R4 = 390 ohm VT = 5V Measured 5 Calculated 1. Total resistance 992.7551 2. Total current=_5mA 3. Voltage drop R1= C 1.35V 4. Current R1 R1= SMA 5. Voltage drop R2= 6. Current R2 IR2= 7. Voltage drop R3=_ 8....
i dont undersrand how to calculate the values from measured data? 2. Turn on the DC...
i dont undersrand how to calculate the values from measured
data?
2. Turn on the DC power supply, measure its output voltage with DMM2 and record it as measured data Vs in Table 6. 3. Use DMM2 to measure the voltages V, V2.V. Va across R R. RR respectively. Use DMMI to measure the current Is (notice: Is=1= 12 + 1,-1). Record the measured values of I, and V., V2, V3. V4 in Table 6. 4. Turn off the DC...
Use measured resistance values and node analysis to calculate the node voltages. Use measured resistance values...
Use measured resistance values and node analysis to calculate
the node voltages.
Use measured resistance values and mesh analysis to calculate
the mesh currents.
Show that the calculated values agree with the measured values
and explain any discrepancies between measured and calculated
values.
Introduction: In this pre-lab we will look at node voltages, mesh currents and bridge circuits. Bridge Circuits are used to make precision measurements, and in this lab -- -0 V2 will look at a DC Bridge Circuit...
find the voltages V, V, and V, in the circuit of Fig. 1, and the currents...
find the voltages V, V, and V, in the circuit of Fig. 1, and the currents 1,, l, and I, in the circuit of Fig. 2. + V- R1, 10K2 + R2, 27KV2 1 R3, 10K w - V + Figure 1 W R1, 10K R2, 27K12 R3, 10K<< Figure 2
8 The circuit diagram of a differential amplifier is shown in figure 6. The values of...
8 The circuit diagram of a differential amplifier is shown in figure 6. The values of the components are. E1 = 20V, E2 = 20V, E3 = 3,3V, E4 = 3,3V, R1 = 1k12, R2 = 1k12 and R3 = 1k2 . Take note of the polarity of the batteries. Assume ß to be very large, so that le1 = le2 in each transistor Determine: 8.1 VR3 8.2 IR3 8.3 IC1 = IC2 8.4 VR1 8.5 VC1 with respect to...
2- Set the two independent power sources to Vsi 6V and Veo" 10 V and measure...
2- Set the two independent power sources to Vsi 6V and Veo" 10 V and measure their actual values using the DMM. Actual Values of power sources: 4.47 VS15.99 Vs- 3- Using the breadboard construct the circuit shown in Figure 4,1 (repeated below for convenience). Use the resistors measured in Step 1 (above) and the power sources Vsi- 6 V, and Vs2 -10 V. IR3 IRI RS. R5 R1 R3 Va V4 V2 V1 ww ww It 12 R4 R23...
Calculate by hand the voltages listed in Table 1.2 of the Lab Measurements Sheet (i.e., the...
Calculate by hand the voltages listed in Table 1.2 of the Lab
Measurements Sheet (i.e., the voltages Va, Vb, Vc, Vab, Vbc and VR1
in Figure 1.15). Show your calculations in section 2 of the LMS and
record the final answers in the column labeled “Theoretical Values”
in Table 1.2 of the Lab Measurements Sheet.
Calculate by hand the currents I1, I2 and I3 shown in Figure
1.15 of the Lab Measurements Sheet. Show your calculations in
section 3 and...
please make sure that the answer is correct %100 Question 3: For the circuit shown, R;...
please make sure that the answer is correct %100
Question 3: For the circuit shown, R; = 101, R2 = 800, R3 = 1000, V; = 100V, and V, = 15V: V2 B А С RI Iri VI IR2 R2 w 11 Iz Analyze the circuit in Figure 1 using Mesh Analysis. Find the nominal (expected from calculation) values for the DC Voltage and DC Current of R1, R2 and R3. Show your steps of calculations clearly and write down...
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...
The circuit shown has the following values for voltages and resistors: V1 13.0 V V2-12.0 V...
The circuit shown has the following values for voltages and resistors: V1 13.0 V V2-12.0 V R1 5.65 Ohms R2-1.61 Ohms R3 4.82 Ohms R4 4.62 Ohms R5-5.05 Ohms R1 I, R2 R3 I, RA V2 Rs Determine the magnitude of current I1.
Calculate the required values for the series circuit then build and measure the values: Built Correctly (20 pts) R1 = 270ohm Serces Same voltage Sane Voltage VTS Vdc R2 = 560 ohm R3 = 820 ohm 두 - sere, R4 = 390 ohm VT = 5V Measured 5 Calculated 1. Total resistance 992.7551 2. Total current=_5mA 3. Voltage drop R1= C 1.35V 4. Current R1 R1= SMA 5. Voltage drop R2= 6. Current R2 IR2= 7. Voltage drop R3=_ 8....
i dont undersrand how to calculate the values from measured
data?
2. Turn on the DC power supply, measure its output voltage with DMM2 and record it as measured data Vs in Table 6. 3. Use DMM2 to measure the voltages V, V2.V. Va across R R. RR respectively. Use DMMI to measure the current Is (notice: Is=1= 12 + 1,-1). Record the measured values of I, and V., V2, V3. V4 in Table 6. 4. Turn off the DC...
Use measured resistance values and node analysis to calculate
the node voltages.
Use measured resistance values and mesh analysis to calculate
the mesh currents.
Show that the calculated values agree with the measured values
and explain any discrepancies between measured and calculated
values.
Introduction: In this pre-lab we will look at node voltages, mesh currents and bridge circuits. Bridge Circuits are used to make precision measurements, and in this lab -- -0 V2 will look at a DC Bridge Circuit...
find the voltages V, V, and V, in the circuit of Fig. 1, and the currents 1,, l, and I, in the circuit of Fig. 2. + V- R1, 10K2 + R2, 27KV2 1 R3, 10K w - V + Figure 1 W R1, 10K R2, 27K12 R3, 10K<< Figure 2
8 The circuit diagram of a differential amplifier is shown in figure 6. The values of the components are. E1 = 20V, E2 = 20V, E3 = 3,3V, E4 = 3,3V, R1 = 1k12, R2 = 1k12 and R3 = 1k2 . Take note of the polarity of the batteries. Assume ß to be very large, so that le1 = le2 in each transistor Determine: 8.1 VR3 8.2 IR3 8.3 IC1 = IC2 8.4 VR1 8.5 VC1 with respect to...
2- Set the two independent power sources to Vsi 6V and Veo" 10 V and measure their actual values using the DMM. Actual Values of power sources: 4.47 VS15.99 Vs- 3- Using the breadboard construct the circuit shown in Figure 4,1 (repeated below for convenience). Use the resistors measured in Step 1 (above) and the power sources Vsi- 6 V, and Vs2 -10 V. IR3 IRI RS. R5 R1 R3 Va V4 V2 V1 ww ww It 12 R4 R23...
Calculate by hand the voltages listed in Table 1.2 of the Lab
Measurements Sheet (i.e., the voltages Va, Vb, Vc, Vab, Vbc and VR1
in Figure 1.15). Show your calculations in section 2 of the LMS and
record the final answers in the column labeled “Theoretical Values”
in Table 1.2 of the Lab Measurements Sheet.
Calculate by hand the currents I1, I2 and I3 shown in Figure
1.15 of the Lab Measurements Sheet. Show your calculations in
section 3 and...
please make sure that the answer is correct %100
Question 3: For the circuit shown, R; = 101, R2 = 800, R3 = 1000, V; = 100V, and V, = 15V: V2 B А С RI Iri VI IR2 R2 w 11 Iz Analyze the circuit in Figure 1 using Mesh Analysis. Find the nominal (expected from calculation) values for the DC Voltage and DC Current of R1, R2 and R3. Show your steps of calculations clearly and write down...
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...
The circuit shown has the following values for voltages and resistors: V1 13.0 V V2-12.0 V R1 5.65 Ohms R2-1.61 Ohms R3 4.82 Ohms R4 4.62 Ohms R5-5.05 Ohms R1 I, R2 R3 I, RA V2 Rs Determine the magnitude of current I1.
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