Nope. CO2 don't cause global warming.

[Yongpeng Sun-Tastaufen]

Jupiter is way hotter than Earth and Jupiter don't have CO2. Pressure = temperature.

https://www.universetoday.com/15097/temperature-of-jupiter/

Posted on June 16, 2008 by Matt Williams
What are Temperatures Like on Jupiter?


Jupiter, which takes its name from the father of the gods in ancient Roman mythology, is the largest planet in our Solar System. It also has the most moon’s of any solar planet – with 50 accounted for and another 17 awaiting confirmation. It has the most intense surface activity, with storms up to 600 km/h occurring in certain areas, and a persistent anticyclonic storm that is even larger than planet Earth.

And when it comes to temperature, Jupiter maintains this reputation for extremity, ranging from extreme cold to extreme hot. But since the planet has no surface to speak of, being a gas giant, it’s temperature cannot be accurately measured in one place – and varies greatly between its upper atmosphere and core.

Currently, scientists do not have exact numbers for the what temperatures are like within the planet, and measuring closer to the interior is difficult, given the extreme pressure of the planet’s atmosphere. However, scientists have obtained readings on what the temperature is at the upper edge of the cloud cover: approximately -145 degrees C.

Because of this extremely cold temperature, the atmosphere at this level is composed primarily of ammonia crystals and possibly ammonium hydrosulfide – another crystallized solid that can only exist where conditions are cold enough.

However, if one were to descend a little deeper into the atmosphere, the pressure would increases to a point where it is ten times what it is here on Earth. At this altitude, the temperature is thought to increase to a comfortable 21 °C, the equivalent to what we call “room temperature” here on Earth.

Descend further and the hydrogen in the atmosphere becomes hot enough to turn into a liquid and the temperature is thought to be over 9,700 C. Meanwhile, at the core of the planet, which is believed to be composed of rock and even metallic hydrogen, the temperature may reach as high as 35,700°C – hotter than even the surface of the Sun.

Gore's CO2 causes temperature is proven wrong. Look at that chart it's so ridiculous.

 

[Yongpeng Sun-Tastaufen]

@pakistanipower @nahtanbob @gambit @vostok @F-22Raptor

 

[Ultima Thule]

Jupiter is way hotter than Earth and Jupiter don't have CO2. Pressure = temperature.

https://www.universetoday.com/15097/temperature-of-jupiter/

Posted on June 16, 2008 by Matt Williams
What are Temperatures Like on Jupiter?


Jupiter, which takes its name from the father of the gods in ancient Roman mythology, is the largest planet in our Solar System. It also has the most moon’s of any solar planet – with 50 accounted for and another 17 awaiting confirmation. It has the most intense surface activity, with storms up to 600 km/h occurring in certain areas, and a persistent anticyclonic storm that is even larger than planet Earth.

And when it comes to temperature, Jupiter maintains this reputation for extremity, ranging from extreme cold to extreme hot. But since the planet has no surface to speak of, being a gas giant, it’s temperature cannot be accurately measured in one place – and varies greatly between its upper atmosphere and core.

Currently, scientists do not have exact numbers for the what temperatures are like within the planet, and measuring closer to the interior is difficult, given the extreme pressure of the planet’s atmosphere. However, scientists have obtained readings on what the temperature is at the upper edge of the cloud cover: approximately -145 degrees C.

Because of this extremely cold temperature, the atmosphere at this level is composed primarily of ammonia crystals and possibly ammonium hydrosulfide – another crystallized solid that can only exist where conditions are cold enough.

However, if one were to descend a little deeper into the atmosphere, the pressure would increases to a point where it is ten times what it is here on Earth. At this altitude, the temperature is thought to increase to a comfortable 21 °C, the equivalent to what we call “room temperature” here on Earth.

Descend further and the hydrogen in the atmosphere becomes hot enough to turn into a liquid and the temperature is thought to be over 9,700 C. Meanwhile, at the core of the planet, which is believed to be composed of rock and even metallic hydrogen, the temperature may reach as high as 35,700°C – hotter than even the surface of the Sun.

Gore's CO2 causes temperature is proven wrong. Look at that chart it's so ridiculous.

And don't compare Jupiter to earth you brainless pathetic troll @undertakerwwefan

 

[Yongpeng Sun-Tastaufen]

And don't compare Jupiter to earth you brainless pathetic troll @undertakerwwefan

Sure I can. You claim Venus is hot because of CO2. I just proved you wrong. Galileo is a bitch.

 

[Ultima Thule]

Sure I can. You claim Venus is hot because of CO2. I just proved you wrong. Galileo is a bitch.

what you you prove me wrong but just troll @undertakerwwefan and you're worst bitch than Galileo @undertakerwwefan

 

[Dante80]

Sure I can. You claim Venus is hot because of CO2. I just proved you wrong. Galileo is a bitch.

Why is Venus hot, if I may ask?

 

[Yongpeng Sun-Tastaufen]

what you you prove me wrong but just troll @undertakerwwefan and you're worst bitch than Galileo @undertakerwwefan

Experiment has proven Gore wrong. CO2 is 412 ppm. Temperature is same as 1800s when CO2 was 280 ppm.

 

[Yongpeng Sun-Tastaufen]

Why is Venus hot, if I may ask?

High pressure. Venus atmosphere is like 100 times the pressure of Earth atmosphere.

 

[Dante80]

High pressure. Venus atmosphere is like 100 times the pressure of Earth atmosphere.

You are getting closer to the truth here. Now, ask yourself this. Why is the temperature in Earths' oceans and in places where the pressure is at or more than 100 times the pressure of the surface not hotter but a lot colder than the surface?

 

[Yongpeng Sun-Tastaufen]

You are getting closer to the truth here. Now, ask yourself this. Why is the temperature in Earths' oceans and in places where the pressure is at or more than 100 times the pressure of the surface not hotter but a lot colder than the surface?

Because of lack of sunlight. The only source of heat is sunlight, except the ocean bottom where volcano vents are hot.

 

[Dante80]

Because of lack of sunlight. The only source of heat is sunlight, except the ocean bottom where volcano vents are hot.

Good. So, where is the difference between Venus being hot and the bottom of the oceans being cold if pressure is your main variable?

 

[Yongpeng Sun-Tastaufen]

Good. So, where is the difference between Venus being hot and the bottom of the oceans being cold if pressure is your main variable?

Venus receives sunlight so atmosphere absorbs that light and convert to heat by law of conservation of energy. Deep ocean don't receive sunlight.

 

[Dante80]

Venus receives sunlight so atmosphere absorbs that light and convert to heat by law of conservation of energy. Deep ocean don't receive sunlight.

Very well. In fact, it is correct to say that Venus receives a lot of more sunlight than the Earth does in general, since Venus is closer to the Sun. You are much closer now.

So, if the variable here is sunlight and your medium of propagation of temperature is pressure, why is Jupiter much hotter at depth than Venus is? Remember, Jupiter receives about 65 times less sunlight flux than Venus.

 

[Yongpeng Sun-Tastaufen]

Very well. In fact, it is correct to say that Venus receives a lot of more sunlight than the Earth does in general, since Venus is closer to the Sun. You are much closer now.

So, if the variable here is sunlight and your medium of propagation of temperature is pressure, why is Jupiter much hotter at depth than Venus is?

More pressure = more kinetic energy = more heat. Actually, deep ocean ain't that cold. Many animals live there. All animals are water based. Means it cannot be freezing cold in deep ocean. Maybe 10 C? What deep ocean lacks in sunlight it can compensate with more pressure.

 

[Dante80]

More pressure = more kinetic energy = more heat. Actually, deep ocean ain't that cold. Many animals live there. All animals are water based. Means it cannot be freezing cold in deep ocean. Maybe 10 C?

About 0 to 3 °C, depending on the location. Even less in places where sunlight is scarcer, like the Poles.

The answer to the question is that Venus generates the strongest greenhouse effect in the Solar System. It actually suffered a runaway greenhouse effect early in its life. Current hypothesis is that billions of years ago Venus's atmosphere was much more like Earth's than it is now, and that there may have been substantial quantities of liquid water on the surface, but after a period of 600 million to several billion years, a runaway greenhouse effect was caused by the evaporation of that original water, which generated a critical level of greenhouse gases in its atmosphere.

This explains why Venus is a lot hotter than Mercury for example. Mercury is the closest planet to the Sun, and receives 4 times more sunlight than Venus does. Yet, the maximum surface temperature there is 427 °C, while Venus sits at 462 °C.

Now, regarding Jupiter, no. More pressure - while somewhat intuitive - is not the answer here. Read this for reference.