There are classes of problems that can not be solved analytically, electronics abounds with them.
They are solved with different numerical methods.
Spreadsheets like Excel have a simple one called a goal seeker. Trial and error.
Weak response, I believe you get the point Lion even if you will not acknowledge it.
There is no human choice for tornadoes, earthquakes, asteroid strikes, and infant birth defects.
There you have it folks, the loving god who will wipe out life with a flood or a killer asteroid.
If your house is destroyed and your family killed by a tornado it is all part of the plan.
The ultimate fantasy escape from reality.
Learner
So god intentionally crated the solar system, so asteroids are intentional. Does it not follow logically that asteroid strikes on Earth are then intentional?
Asteroids are remnants of the formation of the solar system. So, was the solar system created intentionally? If you believe that your god who is omniscient without bound created the umber se down to the finest detail, then god created asteroids. Everything that happens is part of gods cretion...
I watched a show on the failure analysis.
There were multiple issue including electronics.
It began with the guy fueling the plane not sure whether to report kg or pounds and made mistakes. His original paperwork was shown with his calculations.
The plane was a new model at the time and the...
This may be the book I read on amateur radio astronomy. From the American Radio Relay League,.
https://www.amazon.com/Amateur-Radio-Astronomy-John-Fielding/dp/1905086164
People build their own antenna arrays.
If the bible god designed everything then from an engineering point if view either god is not a very good designer or our reality is exactly what an all knowing omniscient god who can see all ends intended it to be.
Asteroid strikes, birth defects, earthquakes.
A guy fueling a commercial jet in Canada colluded pounds and kilograms. The jet ran out fuel in flight and mnaged to gllide to a safe landing at a closed runway.
...= 10,100, and 1000.
import matplotlib.pyplot as plt
import array as ar
import math as ma
nsignal = 1000
nterms = 100
y = ar.array('d',nsignal*[0])
ys = ar.array('d',nsignal*[0])
t = ar.array('d',nsignal*[0])
dt = 1/(nsignal-1)
for i in range(nsignal):t[i] = i *dt # 0 to 1 second
#square...
Thanks, but I have not really contributed to your thesis, it is your baby.
I was never interested in research and publishing, I just liked building thing and solving problems. A worker bee engineer.
Arbitrary waveform generators can synthesize any waveform.
Python has sound processing functions.
There is audio oscilloscope and, waveform generator, and spectrum analyzer software They take data froand output to the sound input and outputs.
I had it wrong. arcsin(sin()) does not equal...
If you have a signal generator and a spectrum or signal analyzer at work you can put square and triangle waves into the analyzer and see the spectrum.
One experiment is worth a thousand words.
If not you can put the signals you generate in code into the Numpy FFT and see the spectrum.
As in the old crime drams there should be a disclaimer in the goggles.
'The stories you are about to read are true, the names have been changed to protect the innocent'
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