Methane behavior is significantly influenced by pressure, particularly in terms of its phase and density. At higher pressures, methane can transition from a gaseous state to a liquid, and eventually to a solid state (methane hydrate) under extremely high pressures and low temperatures. Additionally, increased pressure can lead to a higher density of methane gas, which can impact its transport and storage in natural gas systems. Overall, pressure plays a crucial role in determining the physical state and behavior of methane in various environments.
I suppose the answer would be 1 Atm. It is only 0.00017% methane in our atmosphere, but the pressure is still 1 Atm, not of methane alone, but gases combined. but this is only deducted from the possibility of extracting methane from our atmosphere. There is not enough information in the question to give an accurate answer. Regards.
Methane is a gas.CH4 is a small molecule that is a gas.
Boiling and freezing points of a substance are affected by pressure. An increase in pressure raises the boiling point and lowers the freezing point of a substance. Melting point is not significantly affected by pressure.
A gas under normal pressure. Methane has a boiling point of -1600C. It does depend on the pressure at extemely high pressures methane will be a liquid.
High pressure = High temperature
I suppose the answer would be 1 Atm. It is only 0.00017% methane in our atmosphere, but the pressure is still 1 Atm, not of methane alone, but gases combined. but this is only deducted from the possibility of extracting methane from our atmosphere. There is not enough information in the question to give an accurate answer. Regards.
Methane is a gas.CH4 is a small molecule that is a gas.
beacuse it is becaiuse its called methane and starts with a M and ends with E :)
At low pressure the boiling point is lowered and inverse.
No, methane is a covalent gas at room temperature and pressure. It is composed of individual molecules held together by covalent bonds.
If you are asking how much pressure you would have to compress methane to in order to liquify it at room temperature, the answer is that methane won't liquify at room temperature. The critical temperature for methane is -87.2 degrees centigrade. Above that temperature it will not liquify no matter how much pressure you apply. At -82.7 degrees centigrade it would take a pressure of 45.96 bar to get it to liquify. See: http://www.chem.purdue.edu/gchelp/liquids/critical.html
As Methane Hydrants form at low temperature and at high pressure, they can be found on the seabed and in arctic perma-frost.
Boiling and freezing points of a substance are affected by pressure. An increase in pressure raises the boiling point and lowers the freezing point of a substance. Melting point is not significantly affected by pressure.
At 1000 degrees, methane would be in a gaseous state. Methane typically exists as a gas at room temperature and pressure, so at 1000 degrees it would remain a gas.
No, anything in solution is hardly chemically affected by pressure as the liquid (solvent with solute) is hardly compressible.
Pressure is not affected by enthalpy and entropy.pressure
If the pressure in a fluid is changed, its density is typically affected. In general, an increase in pressure leads to an increase in density, while a decrease in pressure results in a decrease in density.