At low temperature and high pressure, the VOLUME of the gas will be reduced.
PV=nRt. If P is constant, get the value of V and solve for t.
The pressure increase because pV=k.
3.5 litre if pressure is kept constant.
This is the Gay-Lussac law: at constant volume of a gas the temperature increase when the pressure increase.
Temperature and amount (number of moles) is kept constant.
The pressure goes up.
As the pressure increases, the volume wil decrease.
The volume become one third.
The volume become one third.
its not
As per Charles' law pressure increases as temperature increases provided volume is kept constant
Imagine you have a small box inside a larger box, the temperatures are the same. If the smaller box contains high pressure gas, and you want to lower the pressure, you open the box. The same amount of gas has now diffused into the larger box. So I guess the answer to your question is that the gas will diffuse.
This relies on 3 things. The Pressure, volume and temperature of a Gas is all related. If the pressure is kept the same and temperature increased. The Volume (of the container) must be increased. If the Volume (of the container) is kept constant and temperature is increased the Pressure will increase. A rough idea of what will happen can be worked out by, pV=cT Where p is the pressure, V is the volume of the container, c is a constant, T is the temperature.
because horizontal vessels can't kept a high presssure
Assuming the volume is kept constant, the pressure will also decrease in this case.
you would explode
Diamonds are created from millions of years of pressure. The process of man made diamonds are kept to a secret to some extent. Synthetic diamond is also widely known as HPHT diamond , High-Pressure High-Temperature synthesis and Chemical Vapor Deposition, respectively