Given: The circuit shown above.
Required: Calculate the value of the load resistor, RL, that will draw the maximum power from the circuit. Also, calculate the maximum amount of power that can be delivered to RL from the circuit.
Solution:
RL = ______ Ω
Pmx = ______ W
Homework Answers
![(37*28) О . 4x 25.79 Pman = 13.4.7 watts ]](http://img.homeworklib.com/questions/d755d120-8f32-11eb-b660-c3d7495d02e2.png?x-oss-process=image/resize,w_560)
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Given: The circuit shown above.
Required: Calculate the value of the load resistor,
RL, that will...
a. For the circuit given in Figure 6 i. Find the load resistance RL that will...
a. For the circuit given in Figure 6
i. Find the load resistance RL that will receive maximum power
and determine the maximum power.
ii. Determine the power dissipated on the load when RL = 2 Ω and
RL = 10 Ω.
Figure 6
b. For the circuit shown in Figure 4, determine:
iii. The power delivered to the load.
iv. The impedance required in a matching network that will
receive maximum power.
Figure 4
1. R 1012 R2 32012...
MULTISIM 10.65 The variable load resistor R¡ in the circuit shown in PSPICE Fig. P10.65 is...
MULTISIM 10.65 The variable load resistor R¡ in the circuit shown in PSPICE Fig. P10.65 is adjusted for maximum average power transfer to RL a) Find the maximum average power. b) What percentage of the average power devel- oped by the ideal voltage source is delivered to Rź when R is absorbing maximum average power? c) Test your solution by showing that the power developed by the ideal voltage source equals the power dissipated in the circuit. Figure P10.65 1212...
(4) For the circuit shown in Fig.3, determine the value of RL so that maximum power...
(4) For the circuit shown in Fig.3, determine the value of RL so that maximum power is delivered to the load and calculate the value of the maximum power which can delivered to the load. ΚΩ R 3 mA 6ΚΩ 10 V 4K Fig. 3 (1Martie
For the circuit, determine A. the value for the load resistance, RL, so that maximum power...
For the circuit, determine
A. the value for the load resistance, RL, so that maximum power is
delivered to the load
B. the maximum power that can be delivered to the load.
5.ค. ba 1n 2A
a) find the no-load value of v0 in the circuit shown b) find v0 when RL...
a) find the no-load value of v0 in the circuit shown
b) find v0 when RL is 150 k(ohms)
c) how much power is dissipated in the 25 k(ohms) resistor if the
load terminals are accidentally short-circuited?
d) what is the maximum power dissipated in thr 75 k(ohms) resistor
when RL is 150 k(ohms)?
a) Find the no-load value of vo in the circuit shown. b) Find vo when Rt is 150 kQ. c) How much power is dissipated in...
Find the Thevenin Equivalent circuit for the circuit shown below as seen by the load resistor...
Find the Thevenin Equivalent circuit for the circuit shown below as seen by the load resistor RL connected across terminals A and B. What is the maximum power can be absorbed by RL? [Sp2014 Exam 1] 5012 125V
Use Thevenin analysis with R1=10Ω, R2=20Ω, and R3= 23 Ω to determine the load RL resulting...
Use Thevenin analysis with R1=10Ω, R2=20Ω, and R3= 23 Ω to
determine the load RL resulting in maximum power transfer and the
power delivered to the load,
a) What load resistor
RL connected to terminals ab will result in maximum power
transfer?
Select one:
a. 53.000
b. 13.019
c. 6.970
d. 10.698
b) what is the maximum power delivered to RL?
o a ЗА o b
QUESTION 4 4. Energy Delivered to Resistor in RL Circuit The switch in the circuit shown...
QUESTION 4 4. Energy Delivered to Resistor in RL Circuit The switch in the circuit shown has been open for a long time. At the switch is closed. Determine the cumulative total energy delivered to the 49 resistor in [J] at 250 ms after the switch is closed. 20 40 w w 12 V
25 Ω 350 70 Ω 15 A 20 Ω 25 Ω Given: The circuit shown above....
25 Ω 350 70 Ω 15 A 20 Ω 25 Ω Given: The circuit shown above. Required: Calculate the resistance value of R and the power, P, consumed by that resistor Solution R=
4. Energy Delivered to Resistor in RL Circuit The switch in the circuit shown has been...
4. Energy Delivered to Resistor in RL Circuit The switch in the circuit shown has been open for a long time. At the switch is closed. Determine the cumulative total energy delivered to the 4 resistor in [J] at 250 ms after the switch is closed. 40 20 w 12 V
a. For the circuit given in Figure 6
i. Find the load resistance RL that will receive maximum power
and determine the maximum power.
ii. Determine the power dissipated on the load when RL = 2 Ω and
RL = 10 Ω.
Figure 6
b. For the circuit shown in Figure 4, determine:
iii. The power delivered to the load.
iv. The impedance required in a matching network that will
receive maximum power.
Figure 4
1. R 1012 R2 32012...
MULTISIM 10.65 The variable load resistor R¡ in the circuit shown in PSPICE Fig. P10.65 is adjusted for maximum average power transfer to RL a) Find the maximum average power. b) What percentage of the average power devel- oped by the ideal voltage source is delivered to Rź when R is absorbing maximum average power? c) Test your solution by showing that the power developed by the ideal voltage source equals the power dissipated in the circuit. Figure P10.65 1212...
(4) For the circuit shown in Fig.3, determine the value of RL so that maximum power is delivered to the load and calculate the value of the maximum power which can delivered to the load. ΚΩ R 3 mA 6ΚΩ 10 V 4K Fig. 3 (1Martie
For the circuit, determine
A. the value for the load resistance, RL, so that maximum power is
delivered to the load
B. the maximum power that can be delivered to the load.
5.ค. ba 1n 2A
a) find the no-load value of v0 in the circuit shown
b) find v0 when RL is 150 k(ohms)
c) how much power is dissipated in the 25 k(ohms) resistor if the
load terminals are accidentally short-circuited?
d) what is the maximum power dissipated in thr 75 k(ohms) resistor
when RL is 150 k(ohms)?
a) Find the no-load value of vo in the circuit shown. b) Find vo when Rt is 150 kQ. c) How much power is dissipated in...
Find the Thevenin Equivalent circuit for the circuit shown below as seen by the load resistor RL connected across terminals A and B. What is the maximum power can be absorbed by RL? [Sp2014 Exam 1] 5012 125V
Use Thevenin analysis with R1=10Ω, R2=20Ω, and R3= 23 Ω to
determine the load RL resulting in maximum power transfer and the
power delivered to the load,
a) What load resistor
RL connected to terminals ab will result in maximum power
transfer?
Select one:
a. 53.000
b. 13.019
c. 6.970
d. 10.698
b) what is the maximum power delivered to RL?
o a ЗА o b
QUESTION 4 4. Energy Delivered to Resistor in RL Circuit The switch in the circuit shown has been open for a long time. At the switch is closed. Determine the cumulative total energy delivered to the 49 resistor in [J] at 250 ms after the switch is closed. 20 40 w w 12 V
25 Ω 350 70 Ω 15 A 20 Ω 25 Ω Given: The circuit shown above. Required: Calculate the resistance value of R and the power, P, consumed by that resistor Solution R=
4. Energy Delivered to Resistor in RL Circuit The switch in the circuit shown has been open for a long time. At the switch is closed. Determine the cumulative total energy delivered to the 4 resistor in [J] at 250 ms after the switch is closed. 40 20 w 12 V
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