That can be ANY temperature, because besides of pressure it depends on volume and quantity (moles) of the gas, plus, surprisingly, it just does NOT depend on the kind of gas. It will be the same for ALL gases. [Neither volume nor quantity are stated by the Questioner.]
Example:
Having 20.0 moles gas in a 22.4 Liter rigid container at normal pressure (100 kPa), the temperature will be 5463 K (5190oC) and 1.00 mole gas at the same p and V has a temperature of 273 K (0.0 oC)
This is all formulated in the 'Ideal Gas Law':
p * V = n * R * Tin whichp= pressure, unit (Pa)
V=volume, unit (m3)
n= total number of moles gas, unit (mol)
T= (absolute) temperature, unit (K)
R= gas constant= 8.314472, unit (J/mol.K)
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.
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.
Albert Einstein
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.
No, methane (CH4) is a gas at room temperature and pressure. It needs to be cooled to very low temperatures (-161.5°C) to become a liquid.
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.
actually it does. The lower the temp. the lower the air pressure so high temp cause high pressure.
Methane is a gas.CH4 is a small molecule that is a gas.
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.
It changes based on vehicle, outside temp, and desired inside temp. Pressuse depends on ambient temperature, the higher the temp, the greater the pressure
Pressure can be balanced with temperature. if you increase pressure u can actually change the state of a substance by changing temperatures. the state at low temp and high pressure is solid, med temp = liquid, and high temp = g... at low pressure and medium temp the state would be gas... thus there is a relationship between the two. you should look at phase change diagrams.
An increase in temperature leads to an increase in pressure.
beacuse it is becaiuse its called methane and starts with a M and ends with E :)
No, methane is a covalent gas at room temperature and pressure. It is composed of individual molecules held together by covalent bonds.
At low pressure the boiling point is lowered and inverse.
temp and pressure