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A cylinder containing an ideal gas is in a vertical position and has a piston of mass M that is able to move up or down without friction (figure). If the temperature is increased,

1. both P and V of the gas will change.

2. only P will increase according to Charles' law.

3. V will change but not P.

4. P will change but not V.

3. Hint: The pressure remains the same.
Consider the diagram where an ideal gas is contained in a cylinder, having a piston of mass M. Friction is absent.
                        
Step 1: Find the change in volume.
The pressure inside the gas will be,
                                   P=Pa+Mg/A
where  Pa = atmospheric pressure
             A = area of cross-section of the piston.
           Mg = weight of the piston
 Hence,   P = constant.
When temperature increases, as PV = nRT  volume (V) increases at constant pressure.

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