The pathway for a binary electrical signal between gates in an integrated circuit can be modeled as an RC circuit, as shown in the figure to the right; the voltage source models the transmitting gate, and the capacitor models the receiving gate. Suppose the resistance is 300 £2 and the capacitance is 1011 F (10 picofarads, pF). If the capacitor is initially uncharged and the transmitting gate changes instantaneously from 0 to 3 V, how long will it take for the voltage at the receiving gate to reach 2 V? It will take seconds. (Use scientific notation. Round to three decimal places as needed.)

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The pathway for a binary electrical signal between gates in an integrated circuit can be modeled as an RC circuit, as shown in the figure to the right; the voltage source models the transmitting gate, and the capacitor models the receiving gate.
Suppose the resistance is 300 $2 and the capacitance is 10 F (10 picofarads, pF). If the capacitor is initially uncharged and the transmitting gate changes instantaneously from 0 to 3 V, how long will it take for the voltage at the receiving gate to
reach 2 V?
It will take seconds.
(Use scientific notation. Round to three decimal places as needed.)
(…)
R
www
~E
Transcribed Image Text:- 11 The pathway for a binary electrical signal between gates in an integrated circuit can be modeled as an RC circuit, as shown in the figure to the right; the voltage source models the transmitting gate, and the capacitor models the receiving gate. Suppose the resistance is 300 $2 and the capacitance is 10 F (10 picofarads, pF). If the capacitor is initially uncharged and the transmitting gate changes instantaneously from 0 to 3 V, how long will it take for the voltage at the receiving gate to reach 2 V? It will take seconds. (Use scientific notation. Round to three decimal places as needed.) (…) R www ~E
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