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you pathetic troll No O2,N3 and O3 is in excess amount, CO2 is responsible for @undertakerwwefan :blah::blah::blah:

O2, N2, O3, CO2 work together. All are important. Burning fossil decreases O2, increases CO2.

The smaller molecules of oxygen and nitrogen absorb very short wavelengths of solar radiation while the larger molecules of water vapor and carbon dioxide absorb primarily longer infrared radiant energy.

https://eesc.columbia.edu/courses/ees/climate/lectures/radiation_hays/
 
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you pathetic troll No O2,N3 and O3 is in excess amount, CO2 is responsible for @undertakerwwefan :blah::blah::blah:

O3 is only like 10 ppm. Much less than CO2 at 400 ppm.

The ozone layer, our Earth’s sunscreen, absorbs about 98 percent of this devastating UV light.

https://www.nationalgeographic.org/encyclopedia/ozone-layer/

The total mass of ozone in the atmosphere is about 3 billion metric tons. That may seem like a lot, but it is only 0.00006 percent of the atmosphere. The peak concentration of ozone occurs at an altitude of roughly 32 kilometers (20 miles) above the surface of the Earth. At that altitude, ozone concentration can be as high as 15 parts per million (0.0015 percent).

https://ozonewatch.gsfc.nasa.gov/facts/SH.html
 
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O3 is only like 10 ppm. Much less than CO2 at 400 ppm.

The ozone layer, our Earth’s sunscreen, absorbs about 98 percent of this devastating UV light.

https://www.nationalgeographic.org/encyclopedia/ozone-layer/

The total mass of ozone in the atmosphere is about 3 billion metric tons. That may seem like a lot, but it is only 0.00006 percent of the atmosphere. The peak concentration of ozone occurs at an altitude of roughly 32 kilometers (20 miles) above the surface of the Earth. At that altitude, ozone concentration can be as high as 15 parts per million (0.0015 percent).

https://ozonewatch.gsfc.nasa.gov/facts/SH.html
So you're agreeing me that CO2 does absorbed IR/shortwaves radiations as compare to other gases @undertakerwwefan
 
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CO2 absorbs what CO2 absorbs. Every gas in the air absorbs something. CO2 absorbs some parts of IR spectrum. CO2 maxed out at 10 ppm like O3 maxed out at 10 ppm. Adding more CO2 makes no difference to temperature.
Shut up you're not climatologist to suggest what is right to do what is not @undertakerwwefan

CO2 absorbs what CO2 absorbs. Every gas in the air absorbs something. CO2 absorbs some parts of IR spectrum. CO2 maxed out at 10 ppm like O3 maxed out at 10 ppm. Adding more CO2 makes no difference to temperature.
And almost all world agrees to reduce/eliminates CO from the atmosphere, your some pseudo scientist believes that excess emissions of CO2 is goo for earth atmosphere and should carry on @undertakerwwefan :crazy::crazy::crazy:
 
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Shut up you're not climatologist to suggest what is right to do what is not @undertakerwwefan


And almost all world agrees to reduce/eliminates CO from the atmosphere, your some pseudo scientist believes that excess emissions of CO2 is goo for earth atmosphere and should carry on @undertakerwwefan :crazy::crazy::crazy:

Decrease CO2 to 100 ppm makes no difference. Medieval warm period was much warmer than today at only 270 ppm CO2. Like I said, CO2 absorbing effect maxed out at 10 ppm. Even if CO2 decreased to 10 ppm makes no difference to temperature.

O2 and N2 and O3 absorb short wave. They absorb short wave during day. At night they release that heat. They are more effective greenhouse gases than CO2 because short wave is more powerful than long wave. UV is so powerful it destroys DNA. On Mars there is no O2, N2, O3. That's why all the short wave gets to the surface making the surface hot and the air much cooler. Mars surface is about 10 C. Only a few meters above the surface is like - 80 C because Mars air is CO2 and CO2 only absorbs the weaker IR and not the stronger short wave like visible light and UV.

Sources:

The smaller molecules of oxygen and nitrogen absorb very short wavelengths of solar radiation while the larger molecules of water vapor and carbon dioxide absorb primarily longer infrared radiant energy.

https://eesc.columbia.edu/courses/ees/climate/lectures/radiation_hays/

The ozone layer, our Earth’s sunscreen, absorbs about 98 percent of this devastating UV light.

https://www.nationalgeographic.org/encyclopedia/ozone-layer/

The total mass of ozone in the atmosphere is about 3 billion metric tons. That may seem like a lot, but it is only 0.00006 percent of the atmosphere. The peak concentration of ozone occurs at an altitude of roughly 32 kilometers (20 miles) above the surface of the Earth. At that altitude, ozone concentration can be as high as 15 parts per million (0.0015 percent).

https://ozonewatch.gsfc.nasa.gov/facts/SH.html
 
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O2 and N2 and O3 absorb short wave. They absorb short wave during day. At night they release that heat. They are more effective greenhouse gases than CO2 because short wave is more powerful than long wave
i am asking you again in what amount O2,O3,N3 have in atmosphere as compare to CO2 @undertakerwwefan o_Oo_O and it is good to control of emission of CO2 earlier then later and getting out of control, rest your post is trash in the context of the subject @undertakerwwefan :hitwall::hitwall::hitwall:
 
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i am asking you again in what amount O2,O3,N3 have in atmosphere as compare to CO2 @undertakerwwefan o_Oo_O and it is good to control of emission of CO2 earlier then later and getting out of control, rest your post is trash in the context of the subject @undertakerwwefan :hitwall::hitwall::hitwall:

O2, N2, O3 absorb short wave. During day they absorb a lot of sunlight and become hot. Very little sunlight reaches Earth surface because theses absorb short wave during day. So Earth surface is cool compared to moon surface during day. At night O2, N2, O3 release the heat they absorbed during day, therefore making Earth warm at night compared to moon.

When sunlight hits the moon's surface, the temperature can reach 260 degrees Fahrenheit (127 degrees Celsius). When the sun goes down, temperatures can dip to minus 280 F (minus 173 C).

https://www.space.com/18175-moon-temperature.html

The smaller molecules of oxygen and nitrogen absorb very short wavelengths of solar radiation while the larger molecules of water vapor and carbon dioxide absorb primarily longer infrared radiant energy.

https://eesc.columbia.edu/courses/ees/climate/lectures/radiation_hays/

The ozone layer, our Earth’s sunscreen, absorbs about 98 percent of this devastating UV light.

https://www.nationalgeographic.org/encyclopedia/ozone-layer/

The total mass of ozone in the atmosphere is about 3 billion metric tons. That may seem like a lot, but it is only 0.00006 percent of the atmosphere. The peak concentration of ozone occurs at an altitude of roughly 32 kilometers (20 miles) above the surface of the Earth. At that altitude, ozone concentration can be as high as 15 parts per million (0.0015 percent).

https://ozonewatch.gsfc.nasa.gov/facts/SH.html
 
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O2, N2, O3 absorb short wave. During day they absorb a lot of sunlight and become hot. Very little sunlight reaches Earth surface because theses absorb short wave during day. So Earth surface is cool compared to moon surface during day. At night O2, N2, O3 release the heat they absorbed during day, therefore making Earth warm at night compared to moon.

When sunlight hits the moon's surface, the temperature can reach 260 degrees Fahrenheit (127 degrees Celsius). When the sun goes down, temperatures can dip to minus 280 F (minus 173 C).

https://www.space.com/18175-moon-temperature.html

The smaller molecules of oxygen and nitrogen absorb very short wavelengths of solar radiation while the larger molecules of water vapor and carbon dioxide absorb primarily longer infrared radiant energy.

https://eesc.columbia.edu/courses/ees/climate/lectures/radiation_hays/

The ozone layer, our Earth’s sunscreen, absorbs about 98 percent of this devastating UV light.

https://www.nationalgeographic.org/encyclopedia/ozone-layer/

The total mass of ozone in the atmosphere is about 3 billion metric tons. That may seem like a lot, but it is only 0.00006 percent of the atmosphere. The peak concentration of ozone occurs at an altitude of roughly 32 kilometers (20 miles) above the surface of the Earth. At that altitude, ozone concentration can be as high as 15 parts per million (0.0015 percent).

https://ozonewatch.gsfc.nasa.gov/facts/SH.html
Can you cut this crap and give my answer for this question only @undertakerwwefan :hitwall::hitwall::hitwall:
i am asking you again in what amount O2,O3,N3 have in atmosphere as compare to CO2 @undertakerwwefan o_Oo_Oo_O
 
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Can you cut this crap and give my answer for this question only @undertakerwwefan :hitwall::hitwall::hitwall:
i am asking you again in what amount O2,O3,N3 have in atmosphere as compare to CO2 @undertakerwwefan o_Oo_Oo_O

O2 is 20%. N2 is 78%. O3 is 1 to 15 ppm. CO2 is about 400 ppm. O2, N2, O3 absorb short wave during day when there is sunlight. CO2 absorb IR at night when there is no sunlight. O2, N2, O3 release heat at night by radiation and conduction so Earth is warm at night. CO2 absorbs IR so CO2 absorbs heat released by O2, N2, O3 at night.
 
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O2 is 20%. N2 is 78%. O3 is 1 to 15 ppm. CO2 is about 400 ppm. O2, N2, O3 absorb short wave during day when there is sunlight. CO2 absorb IR at night when there is no sunlight. O2, N2, O3 release heat at night by radiation and conduction so Earth is warm at night. CO2 absorbs IR so CO2 absorbs heat released by O2, N2, O3 at night.
So you called oxygen, Nitrogen, Ozone to to short form, and give me the prove Oxygen, Nitrogen have more capacity to absorb so called your shortwaves radiation more than CO2, and Ozone is only absorb UV radiation and nothing to do with heating of earth, and don't make ridiculous claims that Oxygen and nitrogen heated at day and those gases included CO2 release at night @undertakerwwefan :hitwall::hitwall::hitwall:
 
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So you called oxygen, Nitrogen, Ozone to to short form, and give me the prove Oxygen, Nitrogen have more capacity to absorb so called your shortwaves radiation more than CO2, and Ozone is only absorb UV radiation and nothing to do with heating of earth, and don't make ridiculous claims that Oxygen and nitrogen heated at day and those gases included CO2 release at night @undertakerwwefan :hitwall::hitwall::hitwall:

CO2 does not absorb short wave, only long wave. O3 absorbs UV. O2 and N2 absorb visible. CO2 absorbs IR. At day they absorb solar radiation. At night they release heat they absorbed during day. That's why Earth is cool at day warm at night. In comparison, Earth's moon is more than 100 C at day and less than -100 C at night, because it don't have air. You don't need CO2 to have that effect. Only O2, N2, O3 is more than enough. O2 and N2 have higher heat holding capacity than CO2, so they hold heat longer at night, so better at keeping heat from going into space. Anyway, CO2 already absorbs 99 percent of whatever IR it absorbs at 10 ppm concentration. Even if Democrats rocket CO2 into space until CO2 is at 10 ppm concentration it makes no difference to temperature.

sources:

When sunlight hits the moon's surface, the temperature can reach 260 degrees Fahrenheit (127 degrees Celsius). When the sun goes down, temperatures can dip to minus 280 F (minus 173 C).

https://www.space.com/18175-moon-temperature.html

The smaller molecules of oxygen and nitrogen absorb very short wavelengths of solar radiation while the larger molecules of water vapor and carbon dioxide absorb primarily longer infrared radiant energy.

https://eesc.columbia.edu/courses/ees/climate/lectures/radiation_hays/

The ozone layer, our Earth’s sunscreen, absorbs about 98 percent of this devastating UV light.

https://www.nationalgeographic.org/encyclopedia/ozone-layer/

The total mass of ozone in the atmosphere is about 3 billion metric tons. That may seem like a lot, but it is only 0.00006 percent of the atmosphere. The peak concentration of ozone occurs at an altitude of roughly 32 kilometers (20 miles) above the surface of the Earth. At that altitude, ozone concentration can be as high as 15 parts per million (0.0015 percent).

https://ozonewatch.gsfc.nasa.gov/facts/SH.html

Specific heat of Oxygen Gas - O2 - at temperatures ranging 175 - 6000 K
Oxygen Gas - O2
Temperature - T - (K)
Specific Heat - cp - (kJ/(kg K))
225 0.911
250 0.913
275 0.915


https://www.engineeringtoolbox.com/oxygen-d_978.html

Specific heat of Nitrogen Gas - N2 - at temperatures ranging 175 - 6000 K
Nitrogen Gas - N2
Temperature - T - (K) Specific Heat - cp - (kJ/(kg K))
275 1.039
300 1.040
325 1.040


https://www.engineeringtoolbox.com/nitrogen-d_977.html

Specific heat of Carbon Dioxide gas - CO2 - temperatures ranging 175 - 6000 K
Carbon Dioxide Gas - CO2
Temperature - T - (K) Specific Heat - cp - (kJ/(kg K))
300 0.846
325 0.871
350 0.895


https://www.engineeringtoolbox.com/carbon-dioxide-d_974.html
 
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CO2 does not absorb short wave, only long wave. O3 absorbs UV. O2 and N2 absorb visible. CO2 absorbs IR. At day they absorb solar radiation. At night they release heat they absorbed during day. That's why Earth is cool at day warm at night. In comparison, Earth's moon is more than 100 C at day and less than -100 C at night, because it don't have air. You don't need CO2 to have that effect. Only O2, N2, O3 is more than enough. O2 and N2 have higher heat holding capacity than CO2, so they hold heat longer at night, so better at keeping heat from going into space. Anyway, CO2 already absorbs 99 percent of whatever IR it absorbs at 10 ppm concentration. Even if Democrats rocket CO2 into space until CO2 is at 10 ppm concentration it makes no difference to temperature.

sources:

When sunlight hits the moon's surface, the temperature can reach 260 degrees Fahrenheit (127 degrees Celsius). When the sun goes down, temperatures can dip to minus 280 F (minus 173 C).

https://www.space.com/18175-moon-temperature.html

The smaller molecules of oxygen and nitrogen absorb very short wavelengths of solar radiation while the larger molecules of water vapor and carbon dioxide absorb primarily longer infrared radiant energy.

https://eesc.columbia.edu/courses/ees/climate/lectures/radiation_hays/

The ozone layer, our Earth’s sunscreen, absorbs about 98 percent of this devastating UV light.

https://www.nationalgeographic.org/encyclopedia/ozone-layer/

The total mass of ozone in the atmosphere is about 3 billion metric tons. That may seem like a lot, but it is only 0.00006 percent of the atmosphere. The peak concentration of ozone occurs at an altitude of roughly 32 kilometers (20 miles) above the surface of the Earth. At that altitude, ozone concentration can be as high as 15 parts per million (0.0015 percent).

https://ozonewatch.gsfc.nasa.gov/facts/SH.html

Specific heat of Oxygen Gas - O2 - at temperatures ranging 175 - 6000 K
Oxygen Gas - O2
Temperature - T - (K)
Specific Heat - cp - (kJ/(kg K))
225 0.911
250 0.913
275 0.915


https://www.engineeringtoolbox.com/oxygen-d_978.html

Specific heat of Nitrogen Gas - N2 - at temperatures ranging 175 - 6000 K
Nitrogen Gas - N2
Temperature - T - (K) Specific Heat - cp - (kJ/(kg K))
275 1.039
300 1.040
325 1.040


https://www.engineeringtoolbox.com/nitrogen-d_977.html

Specific heat of Carbon Dioxide gas - CO2 - temperatures ranging 175 - 6000 K
Carbon Dioxide Gas - CO2
Temperature - T - (K) Specific Heat - cp - (kJ/(kg K))
300 0.846
325 0.871
350 0.895


https://www.engineeringtoolbox.com/carbon-dioxide-d_974.html
And longer IR wavelengths is more harmful than shortwave lengths because its traps heat and as for your information visible wavelengths are longer than IR you stupid and rest of your post is trash in the context of subject @undertakerwwefan
 
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And longer IR wavelengths is more harmful than shortwave lengths because its traps heat and as for your information visible wavelengths are longer than IR you stupid and rest of your post is trash in the context of subject @undertakerwwefan

The shorter the wave length, the more energy. The longer the wave length, the less energy. UV is the most powerful sunlight. Can destroy DNA. IR is the weakest sunlight.

Sources:

The greater the energy, the larger the frequency and the shorter (smaller) the wavelength. Given the relationship between wavelength and frequency — the higher the frequency, the shorter the wavelength — it follows that short wavelengths are more energetic than long wavelengths.

http://hubblesite.org/reference_desk/faq/answer.php.id=73&cat=light

The ozone layer, our Earth’s sunscreen, absorbs about 98 percent of this devastating UV light.

https://www.nationalgeographic.org/encyclopedia/ozone-layer/

The total mass of ozone in the atmosphere is about 3 billion metric tons. That may seem like a lot, but it is only 0.00006 percent of the atmosphere. The peak concentration of ozone occurs at an altitude of roughly 32 kilometers (20 miles) above the surface of the Earth. At that altitude, ozone concentration can be as high as 15 parts per million (0.0015 percent).

https://ozonewatch.gsfc.nasa.gov/facts/SH.html

And longer IR wavelengths is more harmful than shortwave lengths because its traps heat and as for your information visible wavelengths are longer than IR you stupid and rest of your post is trash in the context of subject @undertakerwwefan

Nope. Visible light is short wave length light. IR is long wave length light.

81668842-electromagnetic-spectrum-diagram-.jpg
 
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