yes
The surface pressure is 1l1.3kPa
Planet (in order from sun)Average temperature in KelvinAverage temperature in 'CRanked in order of hottest to coldestMercury*340672Venus7354621 (hottest)Earth287.214.053Mars210-634Jupiter**165-1085Saturn**134-1396Uranus**76-1977Neptune**72-2018 (coldest) *This is the average temperature at the equator. Unlike the other planets Mercury has a huge range in surface temperature due to lack of atmosphere. At the equator, the surface temperature on Mercury can range from 100K (-173'C) to 700K (430'C). **temperature at the 1.0 bar pressure level
Planet (in order from sun)Average temperature in KelvinAverage temperature in 'CRanked in order of coldest to hottestMercury*340677Venus7354628 (hottest)Earth287.214.056Mars210-635Jupiter**165-1084Saturn**134-1393Uranus**76-1972Neptune**72-2011 (coldest) *This is the average temperature at the equator. Unlike the other planets Mercury has a huge range in surface temperature due to lack of atmosphere. At the equator, the surface temperature on Mercury can range from 100K (-173'C) to 700K (430'C).**temperature at the 1.0 bar pressure level
Not enough pressure or temperature.
At the equator, the surface temperature on Mercury can range from -173°C to 430°C, while temperatures at the poles can plummet to around -193°C. The mean surface temperature is 67°C
The surface pressure is 1l1.3kPa
At the earth's surface. The deeper you go in the earth, the higher the pressure and temperature, and the minerals that are stable under low temperature and pressure become unstable, and turn into other minerals that are stable under those conditions.
doldrums
At the equator, the surface temperature on Mercury (facing the sun) can reach 700K (430'C).
Planet (in order from sun)Average temperature in KelvinAverage temperature in 'CRanked in order of hottest to coldestMercury*340672Venus7354621 (hottest)Earth287.214.053Mars210-634Jupiter**165-1085Saturn**134-1396Uranus**76-1977Neptune**72-2018 (coldest) *This is the average temperature at the equator. Unlike the other planets Mercury has a huge range in surface temperature due to lack of atmosphere. At the equator, the surface temperature on Mercury can range from 100K (-173'C) to 700K (430'C). **temperature at the 1.0 bar pressure level
Planet (in order from sun)Average temperature in KelvinAverage temperature in 'CRanked in order of coldest to hottestMercury*340677Venus7354628 (hottest)Earth287.214.056Mars210-635Jupiter**165-1084Saturn**134-1393Uranus**76-1972Neptune**72-2011 (coldest) *This is the average temperature at the equator. Unlike the other planets Mercury has a huge range in surface temperature due to lack of atmosphere. At the equator, the surface temperature on Mercury can range from 100K (-173'C) to 700K (430'C). **temperature at the 1.0 bar pressure level
Planet (in order from sun)Average temperature in KelvinAverage temperature in 'CRanked in order of coldest to hottestMercury*340677Venus7354628 (hottest)Earth287.214.056Mars210-635Jupiter**165-1084Saturn**134-1393Uranus**76-1972Neptune**72-2011 (coldest) *This is the average temperature at the equator. Unlike the other planets Mercury has a huge range in surface temperature due to lack of atmosphere. At the equator, the surface temperature on Mercury can range from 100K (-173'C) to 700K (430'C).**temperature at the 1.0 bar pressure level
The average surface temperature on Mars is 20 degrees Celsius at noon at the equator. At the poles, the temperature drops down to -153 degrees Celsius.
The Moon's surface temperature depends on where it is measured.... Surface temp. equator 85°Nminmeanmax100 K220 K390 K70 K130 K230 K
Both temperature and pressure increase with depth.
In a gravity free situation, it will eventually stabilize into a sphere if the pressure and temperature conditions are right. In a gravity field the liquid will spread out until it finds the place where it doesn't "run downhill" anymore, if the pressure and temperature conditions are right. However it will stop spreading at a point where the surface tension is greater than the gravity.
At the center, both the temperature and the pressure are highest. Both a high pressure and a high temperature increase the likelihood of fusion.