Since the pressure is constant, the force exerted is constant and the work done is given as PΔV. An isobaric expansion of a gas requires heat transfer to keep the pressure constant. An isochoric process is one in which the volume is held constant, meaning that the work done by the system will be zero.
Q. Does the gas mixture do work or is work done on it?
1 Expert Answer As the gas heats up, its pressure should rise, which in turn displaces the piston in the outward direction. This is positive work, i.e. work being done by the system. Since the piston moves out, the gas mixture does work on ts surroundings.
Table of Contents
- Q. Does the gas mixture do work or is work done on it?
- Q. How do you tell if work is done on or by the system?
- Q. Does heat flow into or out of the gas mixture?
- Q. How do you calculate pressure volume work?
- Q. How do you calculate molar heat capacity?
- Q. What does molar heat capacity depend on?
- Q. What is the difference between heat capacity and molar heat capacity?
- Q. Is molar heat capacity a path function?
Q. How do you tell if work is done on or by the system?
If energy enters the system, its sign is positive. If energy leaves the system, its sign is negative. If work is done on the system, its sign is positive. If work is done by the system, its sign is negative.
Q. Does heat flow into or out of the gas mixture?
3) Heat flows into the gaseous mixture.
Q. How do you calculate pressure volume work?
Pressure-volume work
- Work is the energy required to move something against a force.
- The energy of a system can change due to work and other forms of energy transfer such as heat.
- Gases do expansion or compression work following the equation: work = − P Δ V /text {work} = -/text P/Delta /text V work=−PΔV.
Q. How do you calculate molar heat capacity?
Calculating Molar Heat Capacity For example, the specific heat of methane (CH4) is 2.20 J/g-K. To convert to molar heat capacity you can make use of the molar heat capacity formula: Multiply the specific heat by the molar mass of methane. The molar mass of methane is 16.04 J/g-K.
Q. What does molar heat capacity depend on?
Like the heat capacity of an object, the molar heat capacity of a substance may vary, sometimes substantially, depending on the starting temperature T of the sample and the pressure P applied to it.
Q. What is the difference between heat capacity and molar heat capacity?
Heat capacity is the ratio of the amount of heat energy transferred to an object to the resulting increase in its temperature. Molar heat capacity is a measure of the amount of heat necessary to raise the temperature of one mole of a pure substance by one degree K.
Q. Is molar heat capacity a path function?
“The total heat capacity, C (Heat required to raise the temperature of the system by 1°C) is an intensive path function. On the other hand, CV(Molar heat capacity at constant volume) and CP (Molar heat capacity at constant pressure) are intensive but state functions.”
