Which of the following describes the relationship between voltage, current, and resistance as stated in Ohm's Law?

Ohm's Law articulates a fundamental relationship in electrical circuits, described by the equation ( V = I \times R ), where ( V ) represents voltage, ( I ) is the current, and ( R ) is the resistance. According to this law, current ( I ) is directly proportional to voltage ( V ); this means that as voltage increases, the current also increases, provided that the resistance remains constant. Conversely, current is inversely proportional to resistance, indicating that as resistance increases while maintaining the same voltage, the current will decrease.

This combination of direct and inverse relationships effectively captures the essence of how voltage, current, and resistance interact in electrical circuits, making the provided statement accurate. Understanding this relationship is crucial for analyzing and designing electrical circuits, as it allows for the prediction of how changes in one of these parameters will affect the others. The clarity of this relationship is a foundational principle in electrical engineering and physics.