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[–] 15823218? ago  (edited ago)

Let's nail down these numbers. It's science. Your hypothesis seems to be:

"A plane flying at X altitude with Y moisture in the atmosphere will ALWAYS leave a persistent condensation trail in the sky"

Is that correct?

Let's figure out what X and Y are. Then we can analyze statistical data to see if your hypothesis is correct. If we see examples of planes flying at X altitude and the moisture content in the atmosphere is Y but it is NOT leaving a condensation trail, then your hypothesis would appear to be incorrect and something else is causing the trails.

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[–] 15823329? ago 

Or you can just pretend you are getting sprayed on without ever testing yourself for whatever nano-particles you think are being sprayed on you. Not that hard to do.

I am sure you are going to go 20-40k ft up and collect air samples and monitor temps.

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[–] 15823452? ago  (edited ago)

I am sure you are going to go 20-40k ft up and collect air samples and monitor temps.

No, no. Let's stick to the scientific method. I don't need to go 20-40k feet up in an airplane. We have weather monitoring balloons and stations all around the globe. We can look up this information online. It's just atmospheric readings. We have tons of those. We can find the historical temperature and moisture content in the atmosphere from just about anywhere on the planet. So, let's talk about condensation trails. What altitude do they form at? What is the % of moisture in the atmosphere required for them to form?

You also didn't address my previous question --- "HOW DOES A CONDENSATION TRAIL START AND STOP?"

Photo: http://stateofthenation2012.com/wp-content/uploads/2014/01/chemtr31.jpg