Answer:
The answer is 0.06027 mÂł
Explanation:
Solution
Given that:
The first step to take is to determine the initial state of the volume for R-134a refrigerant
Now,
vâ =V/m
V = the volume of weighted piston cylinder device at the normal state
m = the mass of the R-134a refrigerant
Thus,
We substitute the values 0.14 for V and 0.2 kg for m
Which results in
vâ = 0.14/0.2
vâ Â = 0.7 mâ/kg
The next step is to find the saturated pressure of the R-134a refrigerant from the temperature table of saturated refrigerant R-134a which is equivalent to the normal temperature of 26.4°C.
Thus, by applying the method of interpolation we have the following
Pâ =101.73 - ((101.73-92.76) * (-26-(-26.4)/-26- (-28))
Pâ = 99.936 kPa
So,
The refrigerant in the weighted pistonâcylinder device is then heated until the temperature gets to a 100°C
Hence, the temperature and pressure at a state of two becomes
Pâ = 99.936 kPa
Tâ = 100°C
The next step is to determine the specific volume of the refrigerant R-134a at a final state from the super heated refrigerant R-134a which is equivalent to the pressure of 99.936 kPa
vâ =0.30138 mÂł /kg
Now,
we now calculate the final state of  the weighted piston cylinder device
Vâ = mvâ
Vâ = 0.2 * 0.30138
Vâ = 0.06027 mÂł
Hence ,the final volume of the weighted cylinder piston device is 0.06027 mÂł
