So-called analog computers use circuits to solve mathematical problems, particularly when they involve differential equations. Suppose we are given the following differential equation to solve. dy(t) dt + ay(t) = x(t) In this equation, a is a constant. 1. When the input is a unit step the output is given by (x(t)=u(t)) What is the total energy expended by the input? y(t) = (1-e-(at))u(t)
So-called analog computers use circuits to solve mathematical problems, particularly when they involve differential equations. Suppose we are given the following differential equation to solve. dy(t) dt + ay(t) = x(t) In this equation, a is a constant. 1. When the input is a unit step the output is given by (x(t)=u(t)) What is the total energy expended by the input? y(t) = (1-e-(at))u(t)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:So-called analog computers use
circuits to solve mathematical
problems, particularly when they
involve differential equations. Suppose
we are given the following differential
equation to solve.
dy(t)
dt
+ ay(t) = x(t)
In this equation, a is a constant.
1. When the input is a unit step
the output is given by
(x(t)=u(t))
What is the total energy expended
by the input?
y(t) = (1-e-(at))u(t)
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