Question 3 The input-output variables for an operational strain gauge are strain (ɛ) and voltage difference (AV). If the stain gauge is subject to an activation current of 5 mA, select the correct statement(s): | The output signal (AV) can be amplified by increasing the activation current to 10 mA, without affecting the integrity of the measurement process. | The output signal (AV) could be amplified by using a strain gauge with a higher gauge factor, where all other boundary conditions remain unchanged. | The output signal (AV) can be amplified by increasing the activation current to 100 mA, without affecting the integrity of the measurement process. ) The output signal (AV) could be amplified by using a strain gauge with a higher electrical resistance, where all other boundary conditions remain unchanged. The output signal (AV) is inversely proportional to the strain.

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Author:Robert L. Boylestad
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Question 3
The input-output variables for an operational strain gauge are strain (ɛ) and
voltage difference (AV). If the stain gauge is subject to an activation current of
5 mA, select the correct statement(s):
The output signal (AV) can be amplified by increasing the activation
current to 10 mA, without affecting the integrity of the measurement
process.
The output signal (AV) could be amplified by using a strain gauge with a
higher gauge factor, where all other boundary conditions remain
unchanged.
The output signal (AV) can be amplified by increasing the activation
current to 100 mA, without affecting the integrity of the measurement
process.
The output signal (AV) could be amplified by using a strain gauge with a
higher electrical resistance, where all other boundary conditions remain
unchanged.
The output signal (AV) is inversely proportional to the strain.
Transcribed Image Text:Question 3 The input-output variables for an operational strain gauge are strain (ɛ) and voltage difference (AV). If the stain gauge is subject to an activation current of 5 mA, select the correct statement(s): The output signal (AV) can be amplified by increasing the activation current to 10 mA, without affecting the integrity of the measurement process. The output signal (AV) could be amplified by using a strain gauge with a higher gauge factor, where all other boundary conditions remain unchanged. The output signal (AV) can be amplified by increasing the activation current to 100 mA, without affecting the integrity of the measurement process. The output signal (AV) could be amplified by using a strain gauge with a higher electrical resistance, where all other boundary conditions remain unchanged. The output signal (AV) is inversely proportional to the strain.
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