With the exception of one step in the differentiation (I am sure you are right, but it's been so long I can't understand it), and after several loops thru the math on the last page, I understand this DC impedance matching now and believe it. Thanks. For more years than you've been alive, I have struggled with understanding why an audio amplifier is said to have an output impedance, and why the speakers must have the same impedance for max power transfer. Is your analogy of a battery and load resistor the same thing ?
Wonderful Explanation!!! SUPERB!!!
With the exception of one step in the differentiation (I am sure you are right, but it's been so long I can't understand it), and after several loops thru the math on the last page, I understand this DC impedance matching now and believe it. Thanks.
For more years than you've been alive, I have struggled with understanding why an audio amplifier is said to have an output impedance, and why the speakers must have the same impedance for max power transfer. Is your analogy of a battery and load resistor the same thing ?
Wonderful. Nice explanation. You got a new subscriber.
Thanks for producing high quality material
The Best Explanation
Awesome..
you are very great
How do we work in practical world when the connecting wires also have some resistance as well
what is the name of this program that you draw with ?
What if we have 2 or 3 resistance internal?
Leave some for me..
r=R