LNA: Difference between revisions
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== HW#5 == |
== HW#5 == |
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The below problem, although simple, is done with variables so |
The below problem, although simple, is done with variables so values can be plugged in afterwords. Thus, one can see how the problem progresses and see where the initial conditions end up at the end. |
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PROBLEM STATEMENT: |
=====PROBLEM STATEMENT:===== |
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Solve for current i(t) in CIRCUIT A below using Laplace Transforms. |
Solve for current i(t) in CIRCUIT A below using Laplace Transforms. <math>V_t(0)=7v</math>, <math> r=40Ω</math>, <math>c=2F</math>, <math>V_c(0)=3v. </math> |
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The two circuits (A and B below) are the same circuit. B is the same as A, only it shows are current when we use KVL and after we have moved the circuit into the "S" domain. |
The two circuits (A and B below) are the same circuit. B is the same as A, only it shows are current when we use KVL and after we have moved the circuit into the "S" domain. |
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Revision as of 10:50, 10 November 2009
Ben Henry LNA Homework
HW#5
The below problem, although simple, is done with variables so values can be plugged in afterwords. Thus, one can see how the problem progresses and see where the initial conditions end up at the end.
PROBLEM STATEMENT:
Solve for current i(t) in CIRCUIT A below using Laplace Transforms. , Failed to parse (syntax error): {\displaystyle r=40Ω} , ,
The two circuits (A and B below) are the same circuit. B is the same as A, only it shows are current when we use KVL and after we have moved the circuit into the "S" domain.
Write Each Components in Laplace Form
Go from the "t" to the "s" domain right off the bat. Using KVL and assuming the current from ground through the voltage source>resister>capacitor>back to ground.
Voltage Source in Volts: -> - (0)/S
Resister in OHMs: r -> R
Capacitor in Farads: c -> 1/(CS) - (0) Where is the initial voltage of the cap.
Apply KVL to Circuit B in S Domain
-+I(s)(R+)-(0)=0
Solving for I(S)
Performing the inverse Laplace
Apply Initial Conditions
Failed to parse (syntax error): {\displaystyle r = 40 Ω}