(Hurry) What is the voltage running through a lamp with a resistance of 45 ohms?

What is voltage and how is it calculated in a circuit? How can we determine the voltage running through a lamp with a resistance of 45 ohms and 3 amps of current passing through it?

Voltage is the product of current and resistance in a circuit. To calculate the voltage running through the lamp, we can use the formula V = IR (Voltage = Current x Resistance). Given: Current (I) = 3 A Resistance (R) = 45 Ω Now, substitute the values into the formula: V = 3 A x 45 Ω V = 135 V Therefore, the voltage running through the lamp with a resistance of 45 ohms and 3 amps of current passing through it is 135 volts.

What is Voltage?

Voltage is the electrical potential difference between two points in a circuit, measured in volts. It is a fundamental concept in electricity and is essential for the flow of current in a circuit. Voltage is often referred to as the "push" that moves electrons through a circuit.

Calculation of Voltage

To calculate the voltage in a circuit, you can use Ohm's Law, which states that Voltage (V) is equal to the product of Current (I) and Resistance (R) i.e., V = IR.

Determining Voltage in a Lamp

In the given scenario, where the lamp has a resistance of 45 ohms and 3 amps of current flowing through it, we can use the formula V = IR. By substituting the values into the equation (V = 3 A x 45 Ω), we find that the voltage running through the lamp is 135 volts. In conclusion, voltage is a crucial aspect of electrical circuits, and it is determined by the current flowing through a circuit and the resistance it encounters. In the case of the lamp with a resistance of 45 ohms and 3 amps of current, the voltage running through it is calculated to be 135 volts.
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