Vol = k*Temp where k is a constant.
Vol2 = Vol1*T2/T1 = 5.00*373/223 = 8.36 litres, approx.
The volume will increase in proportion to the increase in absolute temperature.
I suppose you mean the formula for the variation in pressure. The simplest expression of this is, at a fixed temperature,and for a given mass of gas, pressure x volume = constant. This is known as Boyle's Law. If the temperature is changing, then we get two relations: 1. If the pressure is fixed, volume = constant x temperature (absolute) 2. If the volume is fixed, pressure = constant x temperature (absolute) These can be combined into the ideal gas equation Pressure x Volume = constant x Temperature (absolute), or PV = RT where R = the molar gas constant. (Absolute temperature means degrees kelvin, where zero is -273 celsius)
The pressure increases as well.
According to the ideal gas law, pressure times volume is constant. We'll call that constant c. PV=C, P=c/V, so pressure is inversely related to volume, so it would look like the graph y=1/x multiplied by a constant.
A piston cylinder process actually includes two processes. The gas inside the piston undergoes both the constant pressure process and the contant volume process.
If the temperature remains constant, decreasing the volume will increase the pressure.
The volume will increase in proportion to the increase in absolute temperature.
Isothermal is where pressure and/or volume changes, but temperature remains constant. Pressure, Volume, and Temperature are related as: PV = nRT =NkT for an ideal gas. Here, we see that since a balloon's volume is allowed to change, its pressure remains relatively constant. Whenever there is a pressure change, it'll be offset by an equivalent change in volume, thus temperature is constant.
Pressure will decrease with (because it is inversely proportianal to) volume, if (and only if!) temperature is held constant.
It will increase? No it will decrease when the same amount of gas is held at constant temperature.
As temperature increases so does volume as long as pressure remains constant.
A sample of gas occupies 1.55L at STP. What will the volume be if the pressure is increased to 50 atm while the temperature remains constant?
This is the Boyle law (or Boyle-Mariotte law).
The volume will increase in proportion to the increase in absolute temperature.
For gases, there is heat specific heat capacity under the assumption that the volume remains constant, and under the assumption that the pressure remains constant. The reason the values are different is that when heating up a gas, in the case of constant pressure it requires additional energy to expand the gas. For solids and liquids, "constant volume" isn't used, since it would require a huge pressure to maintain the constant volume.
59.04
The volume is constant. The pressure will increase.The volume is constant. The pressure will increase.