Final answer:
Oscilloscope probes are indeed connected in parallel with a circuit or component to measure frequency because this allows the accurate measurement of the potential difference across the device of interest.
Step-by-step explanation:
The statement that to measure frequency, the scope probes are connected in parallel with the circuit or component under test is True. When using an oscilloscope, it's important to connect the scope probes in parallel to accurately display the voltage's time behavior across that particular circuit component, from which you can determine the frequency of the signal. Just like voltmeters, oscilloscopes require a parallel connection to measure the potential difference across a device without altering the circuit conditions. A direct parallel connection ensures that the oscilloscope measures the voltage of the specific component without the influence of other parallel pathways that may be present in the circuit. True. When measuring frequency using an oscilloscope, the scope probes are connected in parallel with the circuit or component under test. The oscilloscope detects the voltage waveform across the circuit, allowing it to analyze the frequency of the signal. Connecting the probes in parallel allows the oscilloscope to capture the voltage variations over time, enabling the user to visualize and measure the frequency of the electrical signal. This parallel connection ensures that the oscilloscope does not significantly affect the circuit's behavior, providing an accurate representation of the signal's frequency without altering the electrical characteristics of the circuit under investigation.