The upper layers of the atmosphere are heated from above, while the lower layers are heated from below, because infrared radiation is given off by the Earth's surface in response to solar heating. The lower troposphere (with its denser molecules and water vapor) receives heat from both re-radiation and convection.
The result is that while the atmosphere always gets thinner with altitude, the temperature decreases with altitude in the troposphere, then increases with altitude in the stratosphere. The very high temperatures in the thermosphere are moot because of the low specific heat (energy capacity) of the tenuous gases there.
The temperature in the atmosphere doesn't steadily increase or decrease as you move away from Earth's surface towards space because at the point where the atmospheric layers intersect, the temperature remains constant, just like when water changes state.
because temperatures increase steadily with altitude.
cause of the the sausages
Air, land and sea temperatures measured as rising steadily since the start of the Industrial Revolution.The causes of global warming are the burning of fossil fuels (coal, oil and natural gas) and deforestation (cutting down trees which previously removed carbon dioxide (CO2) from the atmosphere).The effect of global warming is climate change.
As material accumulated to form Earth, the high-velocity impact of meteorites and the decay of radioactive elements caused the temperature of our planets to steadily increase. During this time of intense heating, earth became hot enough that iron and nickel began to melt.
The temperature in the atmosphere doesn't steadily increase or decrease as you move away from Earth's surface towards space because at the point where the atmospheric layers intersect, the temperature remains constant, just like when water changes state.
The temperature in the atmosphere doesn't steadily increase or decrease as you move away from Earth's surface towards space because at the point where the atmospheric layers intersect, the temperature remains constant, just like when water changes state.
The distribution of temperature in the stationary heated solar atmosphere found for the limiting cases of slow and fast heating.
Yes it does but the rate changes depending on what you come across. But yes, it does decrease.
because temperatures increase steadily with altitude.
The burning of fossil fuels (coal & oil) is the primary cause of the increase in carbon dioxide levels in the atmosphere.
The upper layers of the atmosphere are heated from above, while the lower layers are heated from below, because infrared radiation is given off by the Earth's surface in response to solar heating. The lower troposphere (with its denser molecules and water vapor) receives heat from both re-radiation and convection. The result is that while the atmosphere always gets thinner with altitude, the temperature decreases with altitude in the troposphere, then increases with altitude in the stratosphere. The very high temperatures in the thermosphere are moot because of the low specific heat (energy capacity) of the tenuous gases there.
The answer is gather.
steadily increase... :)
The average temperature of Jupiter's atmosphere is about -121°C (152.15 K), with its lowest temperature at -165°C (110.15 K). The temperature and pressure inside Jupiter increase steadily toward the core. At the phase transition region where hydrogen-heated beyond its critical point-becomes metallic, it is believed the temperature is 10,000 K and the pressure is 200 GPa. The temperature at the core boundary is estimated to be 36,000 K and the interior pressure is roughly 3,000-4,500 GPa. (for comparison the surface of the Sun is about 6600 K).
Firstly its temperature will rise fairly steadily, and its volume will increase if it is above 4 degrees C.. When it gets to 100 degrees C, its temperature will level off whilst it boils. If heat is continuously applied to the resulting steam its temperature will continue to rise and it will expand.
evaporate