• Author / Uploaded
• Awais Khan

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5.47

Find V0 in the network in Fig. P5.47 using Norton's theorem.

5.47

Find V0 in the network in Fig. P5.47 using Norton's theorem.

5.5

In the network in Fig. P5.5, find I0 using superposition.

5.5

In the network in Fig. P5.5, find I0 using superposition.

5.28

Use Thevenin's theorem to find V0 in the network in Fig. P5.28.

5.45

Given the linear circuit in Fig. P5.45, it is known that when a 2-k! load is connected to the terminals A - B , the load current is 10 mA. If a 10-k! load is connected to the terminals, the load current is 6 mA. Find the current in a 20-k! load.

5.51

Use Norton's theorem to find V0 in the network in Fig. P5.51.

5.51

Use Norton's theorem to find V0 in the network in Fig. P5.51.

5.17

Use superposition to find I0 in the network in Fig. P5.17.

5.17

Use superposition to find I0 in the network in Fig. P5.17.

5.46

If an 8-k! load is connected to the terminals of the network in Fig. P5.46, VAB = 16 V. If a 2-k! load is connected to the terminals, VAB = 8 V. Find VAB if a 20-k! load is connected to the terminals.

E5.4

Find V0 in the circuit in Fig. E5.2 using both Thévenin's and Norton's theorems. When deriving the Norton equivalent circuit, break the network to the left of the 2-k! resistor. Why?

3k"! 12V!

4k"! 2k"!

2mA!

+

V0 -

!