(New page: Part A: Periodic Signals Revisited...Periodic Signals Revisited...Periodic Signals Revisited)
 
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Part A: Periodic Signals Revisited...Periodic Signals Revisited...Periodic Signals Revisited
 
Part A: Periodic Signals Revisited...Periodic Signals Revisited...Periodic Signals Revisited
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As we discussed in class, a function x(t) is periodic if x(t+T)= x(t) , where T is a multiple of the fundamental period, or smallest period.
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In the first homework, I explained how <math>sin(t)</math> was periodic. However, because that is rather boring, let's take a look at <math>sin(t)-cos(2t)</math>.

Revision as of 13:22, 12 September 2008

Part A: Periodic Signals Revisited...Periodic Signals Revisited...Periodic Signals Revisited

As we discussed in class, a function x(t) is periodic if x(t+T)= x(t) , where T is a multiple of the fundamental period, or smallest period.

In the first homework, I explained how $ sin(t) $ was periodic. However, because that is rather boring, let's take a look at $ sin(t)-cos(2t) $.

Alumni Liaison

Prof. Math. Ohio State and Associate Dean
Outstanding Alumnus Purdue Math 2008

Jeff McNeal