Directions: For the circuit, apply Ohm's Law and Kirchhoff's Laws to completely solve for the voltage, current and/or resistance of each of the components in the circuit. We assume perfect power supplies (no internal resistance) and perfect connecting wires (no resistance of their own). Remember, all components might not share the same voltage and can have a unique amount of current! wwwww www 70 50 120 = ##.# A V40 = ##.# V VsQ = ##.# V 170 = ##.# A [*] 20 12 V
Directions: For the circuit, apply Ohm's Law and Kirchhoff's Laws to completely solve for the voltage, current and/or resistance of each of the components in the circuit. We assume perfect power supplies (no internal resistance) and perfect connecting wires (no resistance of their own). Remember, all components might not share the same voltage and can have a unique amount of current! wwwww www 70 50 120 = ##.# A V40 = ##.# V VsQ = ##.# V 170 = ##.# A [*] 20 12 V
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Transcribed Image Text:Directions:
For the circuit, apply Ohm's Law and Kirchhoff's Laws to completely solve for the voltage,
current and/or resistance of each of the components in the circuit. We assume perfect power
supplies (no internal resistance) and perfect connecting wires (no resistance of their own).
Remember, all components might not share the same voltage and can have a unique amount of
current!
www
70
www
50
V40 = ##.# V
120
= ##.# A
VsQ = ##.# V
170
= ##.# A
40
www
{
12 V
20
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