DC Theory, Lvl V - 2nd Ed./ Lesson 3: Thevenin's and Norton's Theorems

Using the Norton's equivalent circuit values from previous questions, calculate the current flow through a load resistor (RLOAD) with a value of 12 ohms. Calculate to one decimal place.

.5A

Using the Thevenin's equivalent circuit values, calculate the current flow through a load resistor of 12 ohms. Calculate to one decimal place.

.5A

Using the Norton's equivalent circuit values from previous questions, calculate the current flow through a load resistor (RLOAD) with a value of 15 ohms. Calculate to three decimal places.

.421A

Using the Thevenin's equivalent circuit values, calculate the current flow through a load resistor of 15 ohms. Calculate to three decimal places.

.421A

Given the circuit shown, find the voltage drop on a load resistor with a value of 13.7 ohms if IN = 40 amperes and RN = 0.3 ohms. (Round the FINAL answer to two decimal places of the specified unit.)

11.6V

The values calculated for current and power are not the same using Norton's Theorem as they are when using Thevenin's Theorem.

False

How much power is dissipated by the 12 ohm load? Calculate to one decimal place.

3W

Using the Norton's equivalent circuit values from previous questions, calculate the current flow through a load resistor (RLOAD) with a value of 8 ohms. Calculate to three decimal places.

.667A

Using the Thevenin's equivalent circuit values, calculate the current flow through a load resistor of 8 ohms. Calculate to three decimal places.

.667A

Using the Norton's equivalent circuit values from previous questions, calculate the current flow through a load resistor (RLOAD) with a value of 2 ohms. Calculate to three decimal places.

1.333

Using the Thevenin's equivalent circuit values, calculate the current flow through a load resistor of 2 ohms. Calculate to three decimal places.

1.333A

Using the Norton's equivalent circuit values from previous questions, calculate the current flow through a load resistor (RLOAD) with a value of 1 ohm. Calculate to one decimal place.

1.6A

Using the Thevenin's equivalent circuit values from Question 6, calculate the current flow through a load resistor of 1 Ω. Calculate to one decimal place.

1.6A

Calculate the power dissipated by the 12 ohm load resistor (RLOAD).

3W

Using the Norton's equivalent circuit values from previous questions, calculate the current flow through a load resistor (RLOAD) with a value of 4 ohms. Calculate to one decimal place.

1A

Using the Thevenin's equivalent circuit values, calculate the current flow through a load resistor of 4 ohms. Calculate to one decimal place.

1A

Calculate the power dissipated by the 1 ohm load resistor (RLOAD). Calculate to two decimal places.

2.56W

Using the Thevenins equivalent circuit values from Questions 6 and 7, calculate how much power is dissipated by the 1 ohm load. Calculate to two decimal places.

2.56W

Calculate the power dissipated by the 15 ohm load resistor (RLOAD). Calculate to two decimal places.

2.66W

How much power is dissipated by the 15 ohm load? Calculate to two decimal places.

2.66W

Given the circuit shown, find the voltage drop on a load resistor with a value of 13.7 ohms if RTH = 0.2 ohms and ETH = 23 volts. (Round the FINAL answer to two decimal places of the specified unit.)

22.94V

Find the current for an 11.5 ohm resistor connected as the load for the Thevenin's equivalent circuit.

2A

How much power is dissipated by the 8 ohm load? Calculate to two decimal places.

3.56W

Calculate the power dissipated by the 8 ohm load resistor (RLOAD). Calculate to one decimal place.

3.6W

How much power is dissipated by the 2 ohm load? Calculate to one decimal place.

3.6W

Given the circuit and parameters shown, solve for the current through the load resistor using Norton's Theorem. (Round the FINAL answer to at least two decimal places in the specified unit.)

4.29A

Given the circuit and parameters shown, solve for the current through the load resistor using Thevenin's Theorem. (Round the FINAL answer to at least two decimal places in the specified unit.)

4.29A

Calculate the power dissipated by the 2 ohm load resistor (RLOAD). Calculate to one decimal place.

4.6W

Calculate the power dissipated by the 4 ohm load resistor (RLOAD). Calculate to one decimal place.

4W

How much power is dissipated by the 4 ohm load? Calculate to one decimal place.

4W

Given the circuit and parameters shown, convert the circuit to a Norton's equivalent and solve for the following:

In = 2A Rn = 4 ohms

Given the circuit and parameters shown, reduce the circuit to Thevenin's equivalent circuit, and solve for the following: (Round the FINAL answers to whole numbers in the specified unit.)

RT = 18 ohms IT = 667 mA ETh = 8V RTh = 4 ohms

Thevenin's Theorem states that any two-terminal source can be reduced to an open-circuit voltage and an equivalent resistance in series with the voltage.

True

Maximum power will be delivered to the load when RLOAD = RTH = RN.

True

Norton's Theorem states that any two-terminal source can be reduced to a maximum current and an equivalent shunt resistance.

True