Difference between revisions of "TF EIM Chapt2"

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(Created page with '=Alternating Current (AC)= Thus far we have discussed direct current circuits which were built from a battery (constant voltage supply). Another type of circuit is one in whic…')
 
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Another type of circuit is one in which the current is driven in an alternating fashion.  Typically the current is increased so some positive maximum value, then decreased until it passes through zero and reverses direction until it reaches another maximum value and then it is decreased again, passing though zero once more on its way to a positive maximum value.
 
Another type of circuit is one in which the current is driven in an alternating fashion.  Typically the current is increased so some positive maximum value, then decreased until it passes through zero and reverses direction until it reaches another maximum value and then it is decreased again, passing though zero once more on its way to a positive maximum value.
  
==Defniitions==
+
==Defnitions==
  
 
;frequency (<math>f</math>, <math>\nu</math> )
 
;frequency (<math>f</math>, <math>\nu</math> )
 
:The frequency is number of complete cycles which occur in 1 sec (cycles/sec = Hz)
 
:The frequency is number of complete cycles which occur in 1 sec (cycles/sec = Hz)
:Angular frequency =<math> \omega = \frac{2\pi}{f}</math> = radians/sec
+
:Angular frequency =<math> \omega = 2\pi f</math> = radians/sec
 
;Period
 
;Period
 
:The period is the time to complete one cycle = 1/<math>f</math>
 
:The period is the time to complete one cycle = 1/<math>f</math>

Revision as of 00:04, 18 January 2011

Alternating Current (AC)

Thus far we have discussed direct current circuits which were built from a battery (constant voltage supply).

Another type of circuit is one in which the current is driven in an alternating fashion. Typically the current is increased so some positive maximum value, then decreased until it passes through zero and reverses direction until it reaches another maximum value and then it is decreased again, passing though zero once more on its way to a positive maximum value.

Defnitions

frequency ([math]f[/math], [math]\nu[/math] )
The frequency is number of complete cycles which occur in 1 sec (cycles/sec = Hz)
Angular frequency =[math] \omega = 2\pi f[/math] = radians/sec
Period
The period is the time to complete one cycle = 1/[math]f[/math]
Amplitude
phase

Capacitors