Compute the increase in internal engergy of the water
Course:- Physics
Reference No.:- EM13559126

Expertsmind Rated 4.9 / 5 based on 47215 reviews.
Review Site
Assignment Help >> Physics

When Water is boiled under a pressure of 2.00 atm, the heat ofvaporization is 2.20x106 J/kg and the boilingpoint is 120 degress C. At this pressure, 1.0 kg of water has avolume of 1.00x10-3 m3 , and 1.00 kg ofsteam has a vlume of .824 m3.

A) Compute the work done when 4 kg of steam is formed at thistemperature


B) Compute the increase in internal engergy of the water.


Put your comment

Ask Question & Get Answers from Experts
Browse some more (Physics) Materials
Aluminum wire has been utilized to replace copper wire through times of high copper prices. if 20 gauge copper wire has a resistance of 33Ω per kilometre of length, decide the
what is the energy now stored if the capacitor was disconnected from the potential source before the separation of the plates was changed? What is the energy now stored if the
Radio receivers can comfortably pick up a broadcasting station's signal when the electric field strength of the signal is about 10.0 mV/m If a radio station broadcasts in al
Use the uncertainty principle to show that if an electron were present in the nucleus (r ˜ 10 - 15m), its kinetic energy (use relativity) would be hundreds of MeV. (Since su
The side mirror on a car is convex and has a radius of curvature of 25 cm. Another car is following, 20 m behind the mirror. If the height of the car is 1.6 m, how tall is t
A 0.520kg glider on an air track is attached to the end of an ideal spring with force constant 453N/m; it undergoes simple harmonic motion with an amplitude of 4.10×10?2m. C
A proton and an electron are fixed in space with a separation of 957 nm. Calculate the electric potential at the midpoint between the two particles. Find the magnitude and dir
A container holds 2.0 mol of gas. The total average kinetic energy of the gas molecules in the container is equal to the kinetic energy of an 8.8x10-3 kg bullet with a speed o