No. I engineer useful equipement that proves itself in industry.
The factory doesn't work if I'm wrong
The machines aren't timed correctly if I'm wrong
The mixture for the recipes are incorrect and mess up the product if I'm wrong
The electric motors turn to fast, too slow or catch fire if I'm wrong
The measurement and control system networks fail if I'm wrong
The rocks don't get crushed if I'm wrong
The purity of the metals are incorrect if I'm wrong
The air quality in the exhaust stacks could be poisonous if I'm wrong
The precipiators don't work if I'm wrong
I don't get the option to be wrong. I'm unemployable if I'm wrong because the science I rely on makes real products that are used by real people on an industrial scale.
The environmentalists make incorrect predictions and retroactively modifiy past observations to make it look like they were right all along.
It's not the same. Look at the rotoscopes that are always brought up by people like Tony Heller.
Evironmentalists predicted a heat apocalyspe during the great dust bowl... They were wrong
Evironmentalists predicted a coming ice age after the dust bowl ended and went so far as to suggest dusting the arctic in coal ash to decrease albido in increase warming... they were wrong
Environmetalists then predicted catastrpohic global warming and we aren't even back at great dust bowl temperatures and they are now making excuses about "climate change" not "global warming" because the warming stopped for 15 years and people were making fun of them.
Not only that but they constantly make claims about gases that are lies: Like I actually know the science behind making devices to measure outgoing stack gases on industrial plants. They lie, they do not understand the physics of the gases and their theories about global warming are based on fundemental misunderstandings about physics.
Like you can open an engineering textbook on how to design devices that demonstrably work and prove to them that they are wrong and they will still argue with you.
Leave it to an engineer to back up their point in excruciating detail!
I've seen Heller's name here and there and will check out what he has to say. But calling them out on predictions that didn't pan out is like calling the weather channel to blame their meteorologists for unexpected rain imo. Way too many variables, but the sensationalists seem to have hogged the spotlight in any case.
Here's the problem with that: The physics don't change just because a different scientists is looking in a different direction.
You can't be lazy and pretend that most of the effects don't matter just because you like how one specific action supports your idea. I will be specific:
Lets use CO2 specifically as an example:
The worry, official story and explanation is that shortwave IR from the sun heats up the ground. The ground then backradiates longwave IR (because it's a lower temperature than the sun) and a few bands in the IR spectrum that CO2 interacts strongly with. So, instead of flying relatively unimpeded through the atmosphere, some of the backradiated IR gets absorbed and results in heating in the atmosphere.
That is all accurate and true. In order to prove the theory, a major proof can be done by filling a jar with a ballon overtop with CO2 and then shining an infrared light through the jar. You will accurately demonstrate that the gas will expand with heating and you will demonstrate that you can heat the gas with infrared, something that doesn't happen with all atmospheric gasses.
Environmentalists stop thinking at this point and run to the papers screaming about global warming because theres a correlation between CO2 rise and global temperature rise from ~1960 to ~2005. Not only have they stopped thinking, they've confused the professor because there's still another 45 minutes left to class time, the bells only just rung and we just got started.
Now what are the ways that CO2 could increase in temperature:
It could be excited from collisions
It could be excited energy from infra-red
It could be excited by other frequencies of EMR
It could be excited by cosmic radiation
What are the ways it could lose heat or otherwise reach equilibrium with it's environment:
It could lose it through collisions
It could lose it by emitting quanta of radiation in the form of infrared radiation
The bolded part is the key. CO2 actually makes for a phenomenal cooling gas because it readily looses heat energy in the form of infrared.
To run the balloon-jar experiment to prove it, all you have to do is use a clear balloon and heat the CO2 jar and the control jar with a regular heater. The CO2 jar will deflate faster because it loses the infrared.
Now think about clouds: Everyone knows that a cloudy night is a warmer night than a cloudless night. Why? Because the clouds trap the infrared because water vapor interacts strongly with almost the entire infrared spectrum. Water vapor actually functions as a thermal insulator and greenhouse gas because it becomes so thick in the atmosphere that it actually makes the atmosphere opaque. The effects of water vapor on climate from a greenhouse gas standpoint is what an increadibly strong greenhouse gas looks like.
But that's not even the worst of it. Look at the charts from NASA: every planet in the solar system is getting hotter and I'm not being and ass, here's an MIT article about pluto getting hotter https://news.mit.edu/2002/pluto
The temperature of the planets, wether we like it or not, is based on atmospheric pressure, orbital distance and solar activity.
Those are your drivers of climate.
If you want to know why clmate changes? it's because we have a semi-stable orbit around an unstable nuclear catastrophe that regularly blows off chunks of ionised plasma and sometimes hits us directly with them. It waxes and wanes and our own orbit gets stretched and pulled and made more or less concentric at times.
Sometimes a direct hit CME strips away a bunch of atmosphere and decreases global pressure, causing global cooling.
Sometimes it gets more active for a period of time and it gets hotter like what we see in tree rings.
Sometimes you get what happened in the little ice age and the sun is so quiet that there's no sunspots for years on end and the planet freezes.
The idea that the sun is a stable source of heat for a planet on a constantly varying orbit is rediculous.
No. I engineer useful equipement that proves itself in industry.
I don't get the option to be wrong. I'm unemployable if I'm wrong because the science I rely on makes real products that are used by real people on an industrial scale.
The environmentalists make incorrect predictions and retroactively modifiy past observations to make it look like they were right all along.
It's not the same. Look at the rotoscopes that are always brought up by people like Tony Heller.
Like you can open an engineering textbook on how to design devices that demonstrably work and prove to them that they are wrong and they will still argue with you.
Leave it to an engineer to back up their point in excruciating detail!
I've seen Heller's name here and there and will check out what he has to say. But calling them out on predictions that didn't pan out is like calling the weather channel to blame their meteorologists for unexpected rain imo. Way too many variables, but the sensationalists seem to have hogged the spotlight in any case.
You may be an engineer. That doesn't make you right on this subject. Your engineering works on both realities.
Here's the problem with that: The physics don't change just because a different scientists is looking in a different direction.
You can't be lazy and pretend that most of the effects don't matter just because you like how one specific action supports your idea. I will be specific:
Lets use CO2 specifically as an example:
The worry, official story and explanation is that shortwave IR from the sun heats up the ground. The ground then backradiates longwave IR (because it's a lower temperature than the sun) and a few bands in the IR spectrum that CO2 interacts strongly with. So, instead of flying relatively unimpeded through the atmosphere, some of the backradiated IR gets absorbed and results in heating in the atmosphere.
That is all accurate and true. In order to prove the theory, a major proof can be done by filling a jar with a ballon overtop with CO2 and then shining an infrared light through the jar. You will accurately demonstrate that the gas will expand with heating and you will demonstrate that you can heat the gas with infrared, something that doesn't happen with all atmospheric gasses.
Environmentalists stop thinking at this point and run to the papers screaming about global warming because theres a correlation between CO2 rise and global temperature rise from ~1960 to ~2005. Not only have they stopped thinking, they've confused the professor because there's still another 45 minutes left to class time, the bells only just rung and we just got started.
Now what are the ways that CO2 could increase in temperature:
What are the ways it could lose heat or otherwise reach equilibrium with it's environment:
The bolded part is the key. CO2 actually makes for a phenomenal cooling gas because it readily looses heat energy in the form of infrared.
To run the balloon-jar experiment to prove it, all you have to do is use a clear balloon and heat the CO2 jar and the control jar with a regular heater. The CO2 jar will deflate faster because it loses the infrared.
Now think about clouds: Everyone knows that a cloudy night is a warmer night than a cloudless night. Why? Because the clouds trap the infrared because water vapor interacts strongly with almost the entire infrared spectrum. Water vapor actually functions as a thermal insulator and greenhouse gas because it becomes so thick in the atmosphere that it actually makes the atmosphere opaque. The effects of water vapor on climate from a greenhouse gas standpoint is what an increadibly strong greenhouse gas looks like.
But that's not even the worst of it. Look at the charts from NASA: every planet in the solar system is getting hotter and I'm not being and ass, here's an MIT article about pluto getting hotter https://news.mit.edu/2002/pluto
The temperature of the planets, wether we like it or not, is based on atmospheric pressure, orbital distance and solar activity.
Those are your drivers of climate.
If you want to know why clmate changes? it's because we have a semi-stable orbit around an unstable nuclear catastrophe that regularly blows off chunks of ionised plasma and sometimes hits us directly with them. It waxes and wanes and our own orbit gets stretched and pulled and made more or less concentric at times.
Sometimes a direct hit CME strips away a bunch of atmosphere and decreases global pressure, causing global cooling.
Sometimes it gets more active for a period of time and it gets hotter like what we see in tree rings.
Sometimes you get what happened in the little ice age and the sun is so quiet that there's no sunspots for years on end and the planet freezes.
The idea that the sun is a stable source of heat for a planet on a constantly varying orbit is rediculous.