What is the current flowing through a 200-ohm resistor connected across 500 volts?

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Prepare for the BOMA Instrumentation and Controls Test with flashcards and multiple choice questions. Each question includes hints and explanations. Get ready for your certification exam!

Multiple Choice

What is the current flowing through a 200-ohm resistor connected across 500 volts?

Explanation:
To determine the current flowing through the 200-ohm resistor connected to a 500-volt source, Ohm's Law is applied. Ohm's Law states that the current (I) flowing through a resistor can be calculated using the formula: \[ I = \frac{V}{R} \] Where: - \( I \) is the current in amperes (amps), - \( V \) is the voltage across the resistor in volts, - \( R \) is the resistance in ohms. In this case, the voltage \( V \) is 500 volts and the resistance \( R \) is 200 ohms. Plugging these values into the formula gives: \[ I = \frac{500\, \text{volts}}{200\, \text{ohms}} = 2.5\, \text{amps} \] Therefore, the current flowing through the resistor is indeed 2.5 amps. This value reflects the direct relationship between voltage and current highlighted by Ohm's Law, where a higher voltage across a fixed resistance results in a proportionately higher current. This reasoning leads to an understanding of how electrical components behave in a circuit, reinforcing the foundational principles of both instrumentation and electrical

To determine the current flowing through the 200-ohm resistor connected to a 500-volt source, Ohm's Law is applied. Ohm's Law states that the current (I) flowing through a resistor can be calculated using the formula:

[ I = \frac{V}{R} ]

Where:

  • ( I ) is the current in amperes (amps),

  • ( V ) is the voltage across the resistor in volts,

  • ( R ) is the resistance in ohms.

In this case, the voltage ( V ) is 500 volts and the resistance ( R ) is 200 ohms. Plugging these values into the formula gives:

[ I = \frac{500, \text{volts}}{200, \text{ohms}} = 2.5, \text{amps} ]

Therefore, the current flowing through the resistor is indeed 2.5 amps. This value reflects the direct relationship between voltage and current highlighted by Ohm's Law, where a higher voltage across a fixed resistance results in a proportionately higher current.

This reasoning leads to an understanding of how electrical components behave in a circuit, reinforcing the foundational principles of both instrumentation and electrical

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