No, it isn't. This is because the first law relation Q - W = ΔU reduces to W = 0 in this case since the system is adiabatic (Q = 0) and ΔU = 0 for the isothermal processes of ideal gases. Therefore, this adiabatic system cannot receive any net work at constant temperature.
ya its possible now we suppose the example of adiabatic process in this process when we compressed the gas in a cylinder rapidly the volume varies and there is no transfer of energy and mass
We can compress the hydrogen because hydrogen gas is stored in the cylinders.
I doubt that is possible to compress 98.5 g of water as to occupy only 50 ml. 50 ml of water would weigh about 50 g.
Density is the ratio mass/volume. For a granular material you need a helium pycnometer.Or - more simple, if it is possible - a graduate cylinder for the measure of the volume by the displacement of water.
It depends on the shape of the lead. If you pound it into a thin sheet and make it into a big sphere so that it displaces more than 100 lbs. of saltwater, then it will weigh nothing and actually float. If you compress it into the smallest solid lump possible, then it will weigh 100 pounds minus the weight of the volume of water displaced.
No, a reversible adiabatic system is also known as isentropic.
ya its possible now we suppose the example of adiabatic process in this process when we compressed the gas in a cylinder rapidly the volume varies and there is no transfer of energy and mass
We can compress the hydrogen because hydrogen gas is stored in the cylinders.
no, a Carnot cycle is not practiclly possible.bcz carnot consist of two cycles. i.e 1-rev. adiabatic 2-isothermal
this is not possible
The compressibility of liquids is low enough that considering them to be incompressible is usually a safe assumption.
yes
No! A cylinder is a cylindrical hole in the engine block.
yes it can. it will just break the object containing, and if not possible, compress into super ice.
if its possible then the reason could be the expansion of high pressured helium from tank to balloon is large.
No, it isn't.
Given a cuboid it is always possible to have a cylinder with the same volume.