In Ohm's Law, the relationship between voltage (E), current (I), and resistance (R) can be summarized as what?

Ohm's Law establishes a fundamental relationship among voltage, current, and resistance in electrical circuits. The formula that accurately summarizes this relationship is represented as voltage (E) being equal to current (I) multiplied by resistance (R). This means that as either the current or the resistance increases, the voltage will also increase linearly, provided that the other variable remains constant.

This principle is essential for understanding how electrical systems operate. It allows for calculating the voltage required in a circuit given the current through and resistance of that circuit. The application of this law is widespread in various fields, including electrical engineering and circuit design, where it aids in the analysis and design of electrical circuits.

The other options do not reflect the correct relationship described by Ohm's Law. For instance, dividing current by resistance or adding current to resistance does not yield any meaningful electrical relationship, and therefore would not apply to the behavior of the circuit as dictated by Ohm's Law.