Consider the piston— cylinder apparatus shown in Figure P20.81. The bottom of the cylinder contains 2.00 kg of water at just under 100.0ºc. The cylinder has a radius of r = 7.50 cm. The piston of mass m = 3.00 kg sits on the surface of the water. An electric heater in the cylinder base transfers energy into the water at a rate of 100 W. Assume the cylinder is much taller than shown in the figure, so we don’t need to be concerned about the piston reaching the top of the cylinder. (a) Once the water begins boiling, how fast is the piston rising? Model the steam as an ideal gas. (b) After the water has completely turned to steam and the heater continues to transfer energy to the steam at the same rate, how fast is the piston rising?
(a)
The speed of the rise of the piston.
Answer to Problem 20.81CP
The speed of the rise of the piston is
Explanation of Solution
Given info: The mass of the water is
Write the expression for the volume of the piston.
Here,
Write the expression for the density of the piston.
Here,
Substitute
Write the expression for the rate of energy required during a phase change.
Here,
Substitute
Substitute
Conclusion:
Therefore, the rise of the piston is
(b)
The rise of the piston.
Answer to Problem 20.81CP
The rise of the piston is
Explanation of Solution
Given info: The mass of the water is
Write the expression for the area of the piston.
Write the expression for the force applied.
Here,
Write the expression for the pressure due to the weight of the piston.
Substitute
Write the expression for the total pressure.
Here,
Substitute
Write the expression for the ideal gas equation.
Here,
Write the expression for the energy required to increase the temperature.
Here,
Differentiate above equation with respect to time.
Substitute
Substitute
Substitute
Conclusion:
Therefore, the rise of the piston is
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Chapter 20 Solutions
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