The following is an approximate representation of an oscilloscope display, showing an exponential-decaying signal. (The hash-marks are absent, and division level "9" isn't part of a real display.) The vertical signal is voltage, and the horizontal signal is time. The units of both are "division". The signal is supposed to represent the voltage across the capacitor as a function of time in the RC circuit with a constant voltage source. Estimate the half-life of the circuit (in μs), if the time axis is set to 0.20 ms/div.
The following is an approximate representation of an oscilloscope display, showing an exponential-decaying signal. (The hash-marks are absent, and division level "9" isn't part of a real display.) The vertical signal is voltage, and the horizontal signal is time. The units of both are "division". The signal is supposed to represent the voltage across the capacitor as a function of time in the RC circuit with a constant voltage source. Estimate the half-life of the circuit (in μs), if the time axis is set to 0.20 ms/div.
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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The following is an approximate representation of an oscilloscope display, showing an exponential-decaying signal. (The hash-marks are absent, and division level "9" isn't part of a real display.) The vertical signal is voltage, and the horizontal signal is time. The units of both are "division".
The signal is supposed to represent the voltage across the capacitor as a function of time in the RC circuit with a constant voltage source.
Estimate the half-life of the circuit (in μs), if the time axis is set to 0.20 ms/div.
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