for a constant resistance, how is the voltage related to the current?\nvoltage is inversely proportional to…

for a constant resistance, how is the voltage related to the current?\nvoltage is inversely proportional to current, so when the voltage doubles, the current is cut in half.\nvoltage is directly proportional to current, so when the voltage doubles, the current is cut in half.\nvoltage is inversely proportional to current, so when the voltage doubles, the current doubles.\nvoltage is directly proportional to current, so when the voltage doubles, the current doubles.

for a constant resistance, how is the voltage related to the current?\nvoltage is inversely proportional to current, so when the voltage doubles, the current is cut in half.\nvoltage is directly proportional to current, so when the voltage doubles, the current is cut in half.\nvoltage is inversely proportional to current, so when the voltage doubles, the current doubles.\nvoltage is directly proportional to current, so when the voltage doubles, the current doubles.

Answer

Brief Explanations:

According to Ohm's law $V = IR$ (where $V$ is voltage, $I$ is current and $R$ is resistance). When $R$ is constant, $V$ and $I$ are directly - proportional. That is, $\frac{V_1}{I_1}=\frac{V_2}{I_2}=R$. If $V_2 = 2V_1$, then $I_2=2I_1$.

Answer:

Voltage is directly proportional to current, so when the voltage doubles, the current doubles.