Click Here to
Order this information in Print

Click Here to
Order this information on CD-ROM

Click Here to
Download this information in PDF Format
 

Click here to make tpub.com your Home Page

Page Title: How the Ideal Series-LC Circuit Respond to a Frequency Below Resonance (100 kHz)
Back | Up | Next

Click here for a printable version
Google


Web
www.tpub.com

Home
   
Information Categories
.... Administration
Advancement
Aerographer
Automotive
Aviation
Combat
Construction
Diving
Draftsman
Engineering
Electronics
Food and Cooking
Math
Medical
Music
Nuclear Fundamentals
Photography
Religion
USMC
   
Products
  Educational CD-ROM's
Printed Manuals
Downloadable Books

   
Back
WARNING 		Up
Neets Module 09-Introduction to Wave-Generators and Wave-Shaping Circuits		Next
How the Ideal Series-LC Circuit Responds to a Frequency Above Resonance (300 kHz)

1-12 How the Ideal Series-LC Circuit Respond to a Frequency Below Resonance (100 kHz) Given: First, note that XL and XC are no longer equal. XC is larger than it was at resonance; XL is smaller. By applying the formulas you have learned, you know that a lower frequency produces a higher capacitive reactance and a lower inductive reactance. The reactances subtract but do not cancel (X L - XC = 1260 - 5300 = 4040 ohms (capacitive)). At an input frequency of 100 kHz, the circuit (still resonant to 205 kHz) has a net reactance of 4040 ohms. In our theoretically perfect circuit, the total opposition (Z) is equal to X, or 4040 ohms. As before, let's apply Ohm's law to the new conditions. The voltage drops across the reactances are as follows:

Privacy Statement - Press Release - Copyright Information. - Contact Us - Support Integrated Publishing