The Power of Ohm's Law in Electrical Circuits

What is Ohm's Law and how does it apply to electrical circuits?

Ohm's Law is an essential principle in electrical engineering that describes the relationship between voltage, current, and resistance in a circuit. How do these three factors interplay in determining the behavior of electricity in a circuit?

Explanation:

Ohm's Law states that the current flowing through a conductor between two points is directly proportional to the voltage across the two points and inversely proportional to the resistance. Mathematically, Ohm's Law can be expressed as:

V = IR

Where:

  • V is the voltage across the conductor in volts.
  • I is the current flowing through the conductor in amperes.
  • R is the resistance of the conductor in ohms.

By knowing any two of these values, we can calculate the third one using Ohm's Law. For example, if we have a lamp with a power rating of 25 watts and a resistance of 4 ohms, we can determine the voltage applied across the lamp by using Ohm's Law.

Let's consider the lamp with a power rating of 25 watts and a resistance of 4 ohms. To find the voltage applied across the lamp, we can rearrange Ohm's Law formula:

V = IR

Given that the power (P) of the lamp is related to the voltage (V) and current (I) by the formula:

P = VI

We can rewrite the power formula to express current in terms of power and voltage:

I = P / V

Substitute this expression for current back into Ohm's Law equation:

V = (P / V) * R

Multiply V to the other side and solve for V:

V^2 = PR

V = √(PR)

Now, plug in the values for power (25 watts) and resistance (4 ohms) into the formula:

V = √(25 * 4)

V = √100

V = 10 volts

Therefore, the voltage applied across the lamp with a resistance of 4 ohms and power rating of 25 watts is 10 volts. Ohm's Law allows us to analyze and calculate various electrical parameters in a circuit to ensure proper functioning and efficiency.

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