Voltage does not flow but is the "pressure" that makes current flow. True or False?

The statement is true. In electric circuits, voltage is often likened to water pressure in a plumbing system. Just as pressure pushes water through pipes, voltage drives electric charge through a conductor. Without voltage, there would be no "pressure" to push the electrons along the circuit, and thus no current flow would occur.

In this analogy, voltage is the driving force, while current is the flow of electric charge that results from this force. The concept of voltage as a "pressure" is fundamental in understanding how electrical systems operate; it is essential for predicting how current behaves in response to various voltages in circuits. This relationship is encapsulated in Ohm’s Law, which states that current is directly proportional to voltage when resistance is constant.

Other options would imply conditions or limitations where voltage might not play this fundamental role, which is not aligned with the basic principles of electrical theory as they relate to the interaction between voltage and current.