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Calculate the required values for the series circuit then build and measure the values: Built Correctly...
the voltage of the battery is 12V, and the values of the resistances are R1=5 ohms,...
the voltage of the battery is 12V, and the values of
the resistances are R1=5 ohms, R2=10 ohms, R3= 15 ohms, and R4= 20
ohms.
Answer the following questions:
1. R1 and R3 are in :
2. R2 and R4 are in:
3 Compare the magnitude of the current through R2 and R3. which is
greater?
4. Compare the magnitude of the voltage across R1 and R3. which is
greater?
5. Compare the magnitude of the voltage across R2 and...
Consider the circuit as shown below. R-2 92 Use Kirchoff's rules to calculate (a) the current...
Consider the circuit as shown below. R-2 92 Use Kirchoff's rules to calculate (a) the current through each resistor: Le. R1: [IR1] A R2: [IR2] A R3: [IR3] A R4: [IR4] A (b) the power supplied by each DC source;i.e. V1: [P1] Watts v2: [P2] Watts v3: [P3] Watts and (c) the power dissipated in each resistor; L.e. R1: [PR1] Watts R2: [PR2] Watts R3: [PR3] watts R4: [PR4] watts IR1 is equal to ?? Amps Answer: IR2 is equal...
In the circuit shown below, the values for each resistor are: R1 = 6 ohm R2...
In the circuit shown below, the values for each resistor are: R1 = 6 ohm R2 = 3 ohm R3 = 8 ohm R4 = 5.67 ohm R5 = 2 ohm R6 = 5 ohm R7 = 25 ohm Based on these values: a) What is the total resistance between points a and d? b) If the circuit is connected to a 25.24 volt battery, what is the current through R1? c) What is the current through R6? d) What...
Laboratory Measurements Make the circuit 2.1. Measure the voltages and currents and record the measured values...
Laboratory Measurements Make the circuit 2.1. Measure the voltages and currents and record the measured values in Table 2.1. Make the circuit 2.2. Measure the voltages and currents and record the measured values in Table 2.2. Make the circuit 2.3. Measure the voltages and currents and record the measured values in Table 2.3 Circuit 2.1 R1 A R3 1.2kohm 2.2kohm V2 R2 18V 3.3kohm Fig. 2.1 I2- IR3 Table 2.1VRi Calculated (coded) Measured 1- LR1 IR2 Circuit 2.2 R1 R3...
R1 R3 Question 4 (20 points) Choose values of resistors and the voltage of the source....
R1 R3 Question 4 (20 points) Choose values of resistors and the voltage of the source. a) Determine the voltage drop across each resistor. b) Determine the current through each resistor. c) Determine the power supplied by the source and dissipated by each resistor. Show all steps and all calculations. Fill these values into the table below. d) This circuit is going to be used in high temperature applications. If the copper wires are originally at 20.0 °C and raised...
Rc circuit R2 7) R3 Four resistors of values R1 = 2.0 Ω, R2 = 4.0...
Rc circuit
R2 7) R3 Four resistors of values R1 = 2.0 Ω, R2 = 4.0 Ω, R3-3.00, and R4° 9.0 Ω are connected across an 8.0 VDC source as shown in the above figure, what is the power dissipated in R2, the 4.00 resistor? A) 4.0 W B) 16. W C)9.0 W D) 7.1 W E) 1.0 W 8) Also calculate the voltage across R a) 1 V b) 2 V c) 3 V d) 4 V
For the circuit of Figure 1, choose values for resistors R1, R2, and R3
C.la For the circuit of Figure 1, choose values for resistors R1, R2, and R3(all resistances must be greater than one Kilo ohm). Given that the voltage source Vs1 = 8V and Vs2 = 10V determine the output voltage Vout. C.1b For the same resistor values Ri, R2, and Rs you chose in part C.la Given that the voltage source Vsi = 8V and Vs2 = 10V, use Figure 2(a) to determine the output voltage Vout/ and Figure 2(b) to determine the output voltage Vout2. Discussion:...
The circuit below can be used to simulate/measure the equivalent resistance of a circuit. The voltage...
The circuit below can be used to simulate/measure the equivalent resistance of a circuit. The voltage from V, to ground will be the equivalent resistance because V-IR and in this case the current source ll is equal to 1 Amp. Note that in general Amp.s not used by a resistance meter as it can cause a too much power to be dissipated by the resistor which can burn out the resistor or change its value.) Create the circuit shown below...
Consider the circuit with R1 = 4 Ω, R2 = 10 Ω, R3 = 9 Ω,...
Consider the circuit with
R1 = 4 Ω, R2 = 10 Ω, R3 = 9 Ω,
R4 = 6 Ω, and R5 = 7 Ω as above with a
battery of 10 volt.
(a) Calculate the equivalent resistant of the entire
circuit.
(b) Calculate the total current in the circuit.
(c) Calculate the voltage drop across the R5
resistor.
(d) Calculate the current through the R5
resistor.
(e) Calculate the dissipated power across the R5
resistor.
Consider the circuit beloW consisting of a single power source and five resistors. 5 The values...
Consider the circuit beloW consisting of a single power source and five resistors. 5 The values in the circuit are as follows: RI-17.5 Ω R2 27.6 Q R3-96.5 Ω R4-144.6 Ω R5 63.4 Calculate the current (l0) supplied by the power source. Use units of "A" or Starting with your result for lo from the previous question, calculate the voltage drop across R5 (use units of "V" or "Volts"). Calculate the power dissipated in resistor R4 (use units of "W"...
the voltage of the battery is 12V, and the values of
the resistances are R1=5 ohms, R2=10 ohms, R3= 15 ohms, and R4= 20
ohms.
Answer the following questions:
1. R1 and R3 are in :
2. R2 and R4 are in:
3 Compare the magnitude of the current through R2 and R3. which is
greater?
4. Compare the magnitude of the voltage across R1 and R3. which is
greater?
5. Compare the magnitude of the voltage across R2 and...
Consider the circuit as shown below. R-2 92 Use Kirchoff's rules to calculate (a) the current through each resistor: Le. R1: [IR1] A R2: [IR2] A R3: [IR3] A R4: [IR4] A (b) the power supplied by each DC source;i.e. V1: [P1] Watts v2: [P2] Watts v3: [P3] Watts and (c) the power dissipated in each resistor; L.e. R1: [PR1] Watts R2: [PR2] Watts R3: [PR3] watts R4: [PR4] watts IR1 is equal to ?? Amps Answer: IR2 is equal...
In the circuit shown below, the values for each resistor are: R1 = 6 ohm R2 = 3 ohm R3 = 8 ohm R4 = 5.67 ohm R5 = 2 ohm R6 = 5 ohm R7 = 25 ohm Based on these values: a) What is the total resistance between points a and d? b) If the circuit is connected to a 25.24 volt battery, what is the current through R1? c) What is the current through R6? d) What...
Laboratory Measurements Make the circuit 2.1. Measure the voltages and currents and record the measured values in Table 2.1. Make the circuit 2.2. Measure the voltages and currents and record the measured values in Table 2.2. Make the circuit 2.3. Measure the voltages and currents and record the measured values in Table 2.3 Circuit 2.1 R1 A R3 1.2kohm 2.2kohm V2 R2 18V 3.3kohm Fig. 2.1 I2- IR3 Table 2.1VRi Calculated (coded) Measured 1- LR1 IR2 Circuit 2.2 R1 R3...
R1 R3 Question 4 (20 points) Choose values of resistors and the voltage of the source. a) Determine the voltage drop across each resistor. b) Determine the current through each resistor. c) Determine the power supplied by the source and dissipated by each resistor. Show all steps and all calculations. Fill these values into the table below. d) This circuit is going to be used in high temperature applications. If the copper wires are originally at 20.0 °C and raised...
Rc circuit
R2 7) R3 Four resistors of values R1 = 2.0 Ω, R2 = 4.0 Ω, R3-3.00, and R4° 9.0 Ω are connected across an 8.0 VDC source as shown in the above figure, what is the power dissipated in R2, the 4.00 resistor? A) 4.0 W B) 16. W C)9.0 W D) 7.1 W E) 1.0 W 8) Also calculate the voltage across R a) 1 V b) 2 V c) 3 V d) 4 V
C.la For the circuit of Figure 1, choose values for resistors R1, R2, and R3(all resistances must be greater than one Kilo ohm). Given that the voltage source Vs1 = 8V and Vs2 = 10V determine the output voltage Vout. C.1b For the same resistor values Ri, R2, and Rs you chose in part C.la Given that the voltage source Vsi = 8V and Vs2 = 10V, use Figure 2(a) to determine the output voltage Vout/ and Figure 2(b) to determine the output voltage Vout2. Discussion:...
The circuit below can be used to simulate/measure the equivalent resistance of a circuit. The voltage from V, to ground will be the equivalent resistance because V-IR and in this case the current source ll is equal to 1 Amp. Note that in general Amp.s not used by a resistance meter as it can cause a too much power to be dissipated by the resistor which can burn out the resistor or change its value.) Create the circuit shown below...
Consider the circuit with
R1 = 4 Ω, R2 = 10 Ω, R3 = 9 Ω,
R4 = 6 Ω, and R5 = 7 Ω as above with a
battery of 10 volt.
(a) Calculate the equivalent resistant of the entire
circuit.
(b) Calculate the total current in the circuit.
(c) Calculate the voltage drop across the R5
resistor.
(d) Calculate the current through the R5
resistor.
(e) Calculate the dissipated power across the R5
resistor.
Consider the circuit beloW consisting of a single power source and five resistors. 5 The values in the circuit are as follows: RI-17.5 Ω R2 27.6 Q R3-96.5 Ω R4-144.6 Ω R5 63.4 Calculate the current (l0) supplied by the power source. Use units of "A" or Starting with your result for lo from the previous question, calculate the voltage drop across R5 (use units of "V" or "Volts"). Calculate the power dissipated in resistor R4 (use units of "W"...
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