Electronic Vacuum Gauge: The Ideal Device for Deep Vacuum Measurement

Which of the following devices are used to accurately measure a deep vacuum (29.25"Hg down to 29.92"Hg)?

(A) Compound gauge

(B) Pressure gauge

(C) Bourdon tube

(D) Electronic vacuum gauge

Final answer: An electronic vacuum gauge (option D) is the correct device to accurately measure a deep vacuum between 29.25"Hg and 29.92"Hg, as it is designed for high accuracy in such ranges.

Answer:

An electronic vacuum gauge (option D) is the correct device to accurately measure a deep vacuum between 29.25"Hg and 29.92"Hg. While compound gauges can measure pressure and vacuum, they are generally not as accurate for deep vacuums. Pressure gauges are typically designed for positive pressure measurements and Bourdon tubes are not as precise for deep vacuum levels. Moreover, an aneroid gauge involves bellows but does not have the accuracy for measuring such high levels of vacuum. A manometer could be used, but the question specifically asks from the given options, and in that case, the electronic vacuum gauge is the most appropriate and accurate choice for measuring deep levels of vacuum often required in scientific and industrial applications, for example, in vacuum chambers or when monitoring gases in an enclosed system.

Explanation:

When it comes to accurately measuring a deep vacuum, the electronic vacuum gauge stands out as the best option among the devices listed. Its precision is ideal for measuring vacuum levels between 29.25"Hg and 29.92"Hg. Compound gauges, while versatile in measuring pressure and vacuum, may not provide the level of accuracy required for deep vacuums. Pressure gauges are more suited for positive pressure measurements, and Bourdon tubes may lack the precision needed for deep vacuum levels.

An aneroid gauge, which utilizes bellows to measure pressure changes, is not tailored for accurately measuring high vacuum levels like those between 29.25"Hg and 29.92"Hg. Although a manometer could be used for the task, the question specifically asked for the given options, making the electronic vacuum gauge the optimal choice for this particular measurement range.

In scientific and industrial settings where precise vacuum measurements are crucial, such as in vacuum chambers or monitoring gas levels in enclosed systems, the reliability and accuracy of an electronic vacuum gauge are indispensable. It ensures that processes involving deep vacuums can be monitored and controlled with confidence.

By utilizing an electronic vacuum gauge, operators can obtain accurate readings and maintain the desired vacuum levels within the specified range. This contributes to the efficiency and reliability of various processes that rely on precise vacuum measurements.

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