Homework Answers
![I en topy change for water, Asw = mw low en 7 2 Asw = 4514:18) In / 70.22 +7731 1. g5+2 73 / | Asw = – 13.11 ksti] P₂ = MR Tz](http://img.homeworklib.com/questions/6ce8b4f0-8e8d-11eb-8df7-c971627eb8cc.png?x-oss-process=image/resize,w_560)
![Igen = Sgen = Hence amout of -13.1 + 1488 1.78 kJ/K] entropy generation during the process is TSgen = 1.78 kJ IK ]](http://img.homeworklib.com/questions/6d54bb60-8e8d-11eb-9085-15ffb9c4d38d.png?x-oss-process=image/resize,w_560)
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Room 90 m 12°C 1) A container filled with 45 kg of liquid water at 95°C...
A container filled with 45 kg of liquid water at 95°C is placed in a 90...
A container filled with 45 kg of liquid water at 95°C is placed in a 90 m3 room that is initially at 12°C. Thermal equilibrium is established after a while as a result of heat transfer between the water and the air in the room. Using constant specific heats at room temperature, determine a) the final equilibrium temperature b) the amount of heat transfer between the water and the air in the room c) the entropy generation /3] I /8]...
(25 pts) A well-insulated and well-sealed 2-m x 3-m x 4-m room is initially at Tal...
(25 pts) A well-insulated and well-sealed 2-m x 3-m x 4-m room is initially at Tal = 22 °C and p = 100 kPa. A mass of mw = 20 kg of liquid water at Tw./ = 80 °C is brought into the room and the system is allowed to reach equilibrium conditions (state 2). 2m x 3m x 4m ROOM 22°C 100 kPa Specific heat values for the air and water may be taken as Cp,air = 1.005 kJ/kg-K;...
1) 150 g of a liquid at 45°C is filled in an insulated metal container at...
1) 150 g of a liquid at 45°C is filled in an insulated metal container at 35°C whose mass is 110 g. The system eventually reaches an equilibrium. Find: (a) the final equilibrium temperature, and (b) estimate total change in entropy of the system (i.e. metal container plus liquid). Specific heat of liquid is 4186 J/kg.Cº and specific heat of metal is 900 J/kg.C. 2) A Carnot engine working between a hot and cool reservoir, extracts 800 J from a...
One container holds 0.10 kg of water at 75 ∘C and is warmed to 95 ∘C...
One container holds 0.10 kg of water at 75 ∘C and is warmed to 95 ∘C by heating from contact with the other container. The other container, also holding 0.10 kg of water, cools from 25 ∘C to 5.0 ∘C. Specific heat of water is 4180 J/kg⋅∘C. Estimate the total change in entropy of two containers of water using the actual temperatures to determine the heat transferred to each container and the average temperatures to determine the change in entropy....
1. Room temperature water (20 Degree C) at a rate 1.5 gram/second drips into a thermal...
1. Room temperature water (20 Degree C) at a rate 1.5 gram/second drips into a thermal insulated container filled with liquid Nitrogen at its boiling temperature (77K). (a) How many gram of liquid Nitrogen will be vaporized every second? What is the rate of change of entropy ( Nitrogen and water) during this process? (b) What would be the Vrms of the Nitrogen molecule at 77K and 20 Degree C? Lv (Nitrogen)=5.56 kJ/mol, Lf (water) =79 cal/g, C water =...
Problem #3 A container is filled with a mass m of water at room temperature T,...
Problem #3 A container is filled with a mass m of water at room temperature T, (specific heat c,' latent heat of vaporization L, density at room temperature p, coefficient of volume expansion B). A very hot mass m2 of copper (specific heat c2) is put into the water and when equilibrium is reached half the water has evaporated. Assume that there is no significant exchange of heat with the suroundings. (note: T-0°C, T100-100°C) a) What is the initial volume...
A container is filled with water and the pressure at the bottom of the container is...
A container is filled with water and the pressure at the bottom of the container is P. Then the container is emptied halfway and topped off with oil of density 800 kg/m3, which floats on top of the water. What is the pressure at the bottom of the container now? A) A pressure > P B) The same pressure P C) A pressure < P D) This is not possible to answer with the information given 4. A camper heats...
A 34 kg iron block and a 48-kg copper block, both initially at 80°C, are dropped...
A 34 kg iron block and a 48-kg copper block, both initially at 80°C, are dropped into a large lake at 15°C. Thermal equilibrium is established after a while as a result of heat transfer between the blocks and the lake water. Determine the total entropy change for this process. The specific heat of Iron at room temperature is cp0.45 kJ/kg.K. The specific heat of copper at 27°C is ep 0,386 kJ/kg.K. Iron Lake 15°C Copper The total entropy change...
1.) 40 g of liquid water at 30 C and 20 g of ice at 0...
1.) 40 g of liquid water at 30 C and 20 g of ice at 0 C are mixed together in an insulated container. Assuming there is not heat lost to surroundings, what will the temperature be when the mixture has reached thermal equilibrium. (show your work) 2.)20 g of ice at 0 C and 10 g of steam at 100 C are mixed together in an insulated container. Assuming there is not heat lost to surroundings, what will the...
A sealed room has a volume of 32 m3. It's filled with air, which may be...
A sealed room has a volume of 32 m3. It's filled with air, which may be assumed to be diatomic, at a temperature of 25°C and a pressure of 9.95 ✕ 104 Pa. A 1.14 kg block of ice at its melting point is placed in the room. Assume the walls of the room transfer no heat. What is the equilibrium temperature (in °C)?
A container filled with 45 kg of liquid water at 95°C is placed in a 90 m3 room that is initially at 12°C. Thermal equilibrium is established after a while as a result of heat transfer between the water and the air in the room. Using constant specific heats at room temperature, determine a) the final equilibrium temperature b) the amount of heat transfer between the water and the air in the room c) the entropy generation /3] I /8]...
(25 pts) A well-insulated and well-sealed 2-m x 3-m x 4-m room is initially at Tal = 22 °C and p = 100 kPa. A mass of mw = 20 kg of liquid water at Tw./ = 80 °C is brought into the room and the system is allowed to reach equilibrium conditions (state 2). 2m x 3m x 4m ROOM 22°C 100 kPa Specific heat values for the air and water may be taken as Cp,air = 1.005 kJ/kg-K;...
1) 150 g of a liquid at 45°C is filled in an insulated metal container at 35°C whose mass is 110 g. The system eventually reaches an equilibrium. Find: (a) the final equilibrium temperature, and (b) estimate total change in entropy of the system (i.e. metal container plus liquid). Specific heat of liquid is 4186 J/kg.Cº and specific heat of metal is 900 J/kg.C. 2) A Carnot engine working between a hot and cool reservoir, extracts 800 J from a...
1. Room temperature water (20 Degree C) at a rate 1.5 gram/second drips into a thermal insulated container filled with liquid Nitrogen at its boiling temperature (77K). (a) How many gram of liquid Nitrogen will be vaporized every second? What is the rate of change of entropy ( Nitrogen and water) during this process? (b) What would be the Vrms of the Nitrogen molecule at 77K and 20 Degree C? Lv (Nitrogen)=5.56 kJ/mol, Lf (water) =79 cal/g, C water =...
Problem #3 A container is filled with a mass m of water at room temperature T, (specific heat c,' latent heat of vaporization L, density at room temperature p, coefficient of volume expansion B). A very hot mass m2 of copper (specific heat c2) is put into the water and when equilibrium is reached half the water has evaporated. Assume that there is no significant exchange of heat with the suroundings. (note: T-0°C, T100-100°C) a) What is the initial volume...
A 34 kg iron block and a 48-kg copper block, both initially at 80°C, are dropped into a large lake at 15°C. Thermal equilibrium is established after a while as a result of heat transfer between the blocks and the lake water. Determine the total entropy change for this process. The specific heat of Iron at room temperature is cp0.45 kJ/kg.K. The specific heat of copper at 27°C is ep 0,386 kJ/kg.K. Iron Lake 15°C Copper The total entropy change...
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