According to Boyle's Law of Pressure-Volume Relationship, an increase in the pressure of a gas will decrease it's volume. And according to Charles's Law of Temperature-Pressure Relationship, an increase in pressure causes an increase in temperature.
Increasing the pressure of a gas the volume decrease.
Increasing the temperatutre the pressure also increase.
The answer is "The equilibrium would shift to reduce the pressure change" on Apex
The answer is "The equilibrium would shift to reduce the pressure change" on Apex
The equalibrium would shift to reduce the pressure
the reaction would shift to favor the side with the most moles of gas. (apex).
The Haber process is a method of making ammonia from Hydrogen and Nitrogen N2 (g) + 3 H2 (g) 2 NH3 (g) An increase in pressure will disturb the system from equilibrium and the system will attempt to recover from this by counteracting the increase in pressure. To counteract the increase in pressure the system will favour the process that gives the least number of molecules (thus lowering pressure). as we can see above we have 4 moles of reactants for 2 moles of products in the equation. This means that an increase in pressure will cause an increase in the yield of ammonia. This reaction is also exothermic, so it would be correct to assume from a purely theoretical viewpoint that low temperature and high pressure would be best for this reaction. However the catalyst that is used in this reaction needs a temperature of around 450 degrees celsius to work, which is why this reaction is carried out at high temperature.
The total number of gas molecules will decrease.
Increasing the pressure of a gas the volume decrease.
decrease volume, increase temperature, etc.
the container is made larger
the reaction would shift to favor the side with the most moles of gas
The answer is "The equilibrium would shift to reduce the pressure change" on Apex
The answer is "The equilibrium would shift to reduce the pressure change" on Apex
The answer is "The equilibrium would shift to reduce the pressure change" on Apex
The equalibrium would shift to reduce the pressure
the reaction would shift to favor the side with the most moles of gas
the reaction would shift to favor the side with the most moles of gas. (apex).
the reaction would shift to favor the side with the most moles of gas. (apex).