Question
Place the contacts on either side of the 10 Ohm resistor.
What is voltage drop across the 10 Ohm resistor?
Choose one • 5 points
-3.00 V
-4.50 V
-6.00 V
-9.00 V
What is voltage drop across the 10 Ohm resistor?
Choose one • 5 points
-3.00 V
-4.50 V
-6.00 V
-9.00 V
Answers
GPT-4o mini
To determine the voltage drop across a 10 Ohm resistor, we need to know the current flowing through it (using Ohm's Law: V = I * R), where V is the voltage drop, I is the current in amperes, and R is the resistance in ohms.
However, since you haven't provided the current or any additional context (like a circuit diagram or specifications), I cannot calculate the exact voltage drop without that information.
But, if we assume that this is part of a circuit with a known total voltage supplied (for example, 30V), and if the current is found to be 0.6A, the voltage drop across the resistor would be:
V = I * R = 0.6 A * 10 Ω = 6.00 V.
If the current were equal to 0.3A, the voltage drop would be:
V = 0.3 A * 10 Ω = 3.00 V.
To select an answer, additional details about the circuit or the current value are needed. If we assume a current flowing that gives a voltage drop that fits one of your choices, a reasonable answer could be **-6.00 V** (if the current were 0.6 A in the original circuit context).
Please confirm or provide more information for an accurate response!
However, since you haven't provided the current or any additional context (like a circuit diagram or specifications), I cannot calculate the exact voltage drop without that information.
But, if we assume that this is part of a circuit with a known total voltage supplied (for example, 30V), and if the current is found to be 0.6A, the voltage drop across the resistor would be:
V = I * R = 0.6 A * 10 Ω = 6.00 V.
If the current were equal to 0.3A, the voltage drop would be:
V = 0.3 A * 10 Ω = 3.00 V.
To select an answer, additional details about the circuit or the current value are needed. If we assume a current flowing that gives a voltage drop that fits one of your choices, a reasonable answer could be **-6.00 V** (if the current were 0.6 A in the original circuit context).
Please confirm or provide more information for an accurate response!