We are supposed to find the final heat given that all the steam converts to water:...

1. An insulated container holds 0.282 kg of water at 22.5C. What is the final equilibrium...

1. An insulated container holds 0.282 kg of water at 22.5C. What is the final equilibrium temperature after a 0.153 kg block of tin at 90.1C is placed in the water? Assume no energy is exchanged with container. 2. How much heat is neccessary to convert 85.0g of water at 100C to 47.0g of water and 38.0 g of steam at 100C?

A well-insulated (no heat transfer) piston cylinder contains 2 kg of saturated water vapor at 1...

A well-insulated (no heat transfer) piston cylinder contains 2 kg of saturated water vapor at 1 MPa. Steam expands reversibly until the pressure drops to 0.5 MPa. Find the final temperature of water and the work done during the expansion in kJ.

Water in an open metal drum is to be heated from 27 °C to 80 °C...

Water in an open metal drum is to be heated from 27 °C to 80 °C by adding superheated steam slowly enough that all the superheated steam condenses. The drum initially contains 250 kg of water, and superheated steam is supplied at 5.0 bar and 375 °C via a 7.5 cm ID stainless steel pipe. a.) How many kilograms of superheated steam should be added so that the final temperature of the water in the tank is exactly 80 °C?...

In this question, assume that the specific heat of water is 4 ×10^3 J/(kg degrees C)...

In this question, assume that the specific heat of water is 4 ×10^3 J/(kg degrees C) and the latent heat of vaporization pf water is 2X10^6 J/Kg. If we mix 1.0 kg of water at 0 oC with 0.01 kg of steam at 100 oC, when the mixture comes to thermal equilibrium. A: a mixture of steam and water at 100 degrees C B: All water at a temperature greater than 50 degrees C C: All water at a temperature...

A vessel whose walls are thermally insulated contains 2.20 kg of water and 0.450 kg of...

A vessel whose walls are thermally insulated contains 2.20 kg of water and 0.450 kg of ice, all at a temperature of 0.0 ∘C. The outlet of a tube leading from a boiler in which water is boiling at atmospheric pressure is inserted into the water. Part A How many grams of steam must condense inside the vessel (also at atmospheric pressure) to raise the temperature of the system to 25.0 ∘C ? You can ignore the heat transferred to...

A copper container of mass 0.080 kg and specific heat 387 Jkg-1K-1 contains 0.30 kg of...

A copper container of mass 0.080 kg and specific heat 387 Jkg-1K-1 contains 0.30 kg of water and 0.040 kg of ice at 0˚C. Steam at 100˚C is passed into the water and its temperature stabilizes at 20.0˚C. Find the mass of the water left in the container. Assume the system is insulated from its environment. --- Please have the answer be completely clear. There is another answer to this question but it is so hard to decipher. Please show...

Two products enter an indirect contact heat exchanger that uses steam for heating. The first product...

Two products enter an indirect contact heat exchanger that uses steam for heating. The first product which contains 15% solids enters at the rate of 3 kg/hr and at 10 °C. The second stream which contains 20% solids enters at the rate of 4 kg/hr and at 20 °C. Saturated steam at 140 °C enters the heat exchanger at 0.5 kg/hr with a quality of 95% and exits at 10% quality at 140 °C. The resulting mixture enters an indirect...

A well-insulated 0.2kg copper bowl contains 0.10kg of ice, both at −10◦ C. A very hot...

A well-insulated 0.2kg copper bowl contains 0.10kg of ice, both at −10◦ C. A very hot 0.35kg copper cylinder is dropped into it and the lid quickly closed. The final temperature of the system is 100◦C, with 5g of steam in the container. (a) How much heat was transferred to the water (in all phases); (b) How much to the bowl? (c) What must have been the original temperature of the cylinder? The specific heat of copper is 386 J/kg·K....

A rigid container contains 3.26 kg of water at 134.5 C and quality 0.16. We heat...

A rigid container contains 3.26 kg of water at 134.5 C and quality 0.16. We heat the container until we have only saturated vapor. How much work was done by the system? The answer will be in kJ.

Consider an experiment where we take water in an insulated container and try to find the...

Consider an experiment where we take water in an insulated container and try to find the relationships between energy added and temperature change. What things are important to consider? For example does it matter how much water we start with? How fast we change the temperature? What if we have a different material we are adding heat to, does that make a difference?