A 0.15 kg ice is placed into an aluminum cup with 0.3 kg water in it....
A 0.15 kg ice is placed into an aluminum cup with 0.3 kg water in it. The initial temperature of cup is 60°C and the mass of the aluminum cup is 0.2 kg. What is the final temperature of the water when the system come to equilibrium. See the equation [3] in the manual. Here use cc=900 J/kg°C, Cw=4186 J/kg°C and Ci=2090 J/kg°C. And L=333000 J/kg The answer keep one digit under decimal point. (For example 10.3)
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A 0.15 kg ice is placed into an aluminum cup with 0.3 kg water
in it....
A cube of ice is taken from the freezer at -9.5 ∘C and placed in a...
A cube of ice is taken from the freezer at -9.5 ∘C and placed in a 75-g aluminum calorimeter filled with 330 g of water at room temperature of 20.0 ∘C. The final situation is observed to be all water at 17.0 ∘C. The specific heat of ice is 2100 J/kg⋅C∘, the specific heat of aluminum is 900 J/kg⋅C∘, the specific heat of water is is 4186 J/kg⋅C∘, the heat of fusion of water is 333 kJ/Kg. What was the...
(8%) Problem 7: A 0.25-kg aluminum bowl holding 0.75 kg of soup at 25.0°C is placed...
(8%) Problem 7: A 0.25-kg aluminum bowl holding 0.75 kg of soup at 25.0°C is placed in a freezer. show answer Incorrect Answer What is the final temperature, in degrees Celsius, if 377 kJ of energy is transferred from the bowl and soup, assuming the soup’s thermal properties are the same as that of water? Specifically, you can assume the latent heat of fusion for the soup is 334 kJ/kg. Specific heat (c) kcal/kg.C 0.215 0.20 Substances Solids Aluminum J/kg.C...
A cube of ice is taken from the freezer at -7.5 °C and placed in a...
A cube of ice is taken from the freezer at -7.5 °C and placed in a 95-g aluminum calorimeter filled with 330 g of water at room temperature of 20.0 °C. The final situation is observed to be all water at 16.0 °C. The specific heat of ice is 2100 J/kg · Cº, the specific heat of aluminum is 900 J/kg . C°, the specific heat of water is is 4186 J/kg . C°, the heat of fusion of water...
A 0.0575 kg ice cube at −30.0°C is placed in 0.617 kg of 35.0°C water in...
A 0.0575 kg ice cube at −30.0°C is placed in 0.617 kg of 35.0°C water in a very well insulated container, like the kind we used in class. The heat of fusion of water is 3.33 x 105 J/kg, the specific heat of ice is 2090 J/(kg · K), and the specific heat of water is 4190 J/(kg · K). The system comes to equilibrium after all of the ice has melted. What is the final temperature of the system?
A 0.0725 kg ice cube at −30.0°C is placed in 0.497 kg of 35.0°C water in...
A 0.0725 kg ice cube at −30.0°C is placed in 0.497 kg of 35.0°C water in a very well insulated container, like the kind we used in class. The heat of fusion of water is 3.33 x 105 J/kg, the specific heat of ice is 2090 J/(kg · K), and the specific heat of water is 4190 J/(kg · K). The system comes to equilibrium after all of the ice has melted. What is the final temperature of the system?
The value of specific heat for copper is 360 J/kg x C degrees, for aluminum is...
The
value of specific heat for copper is 360 J/kg x C degrees, for
aluminum is 900 J/kg x C degrees, and for water is 4186 J/kg x C
degrees.
Course Home <Ch 14 HW Item 6 6 of 10 Consta The value of specific heat for copper is 390 J/kg.C.for aluminun is 900 J/kg.C. and for water is 4186 J/kg.C. Part A What will be the equilibrium temperature when a 215 g block of copper at 235 °C is...
A cube of ice is taken from the freezer at -5.5 degree C and placed in...
A cube of ice is taken from the freezer at -5.5 degree C and placed in a 85-g aluminum calorimeter filled with 330 g of water at room temperature of 20.0 degree C. The final situation is observed to be all water at 16.0 degree C. The specific heat of ice is 2100 J/kg C degree, the specific heat of aluminum is 900 J/kg C degree, the specific heat of water is is 4186 J/kg. C degree, the heat of...
A. mass of 3.00 kg of water at 50 degree C has 1.00 kg of ice...
A. mass of 3.00 kg of water at 50 degree C has 1.00 kg of ice at 0 degree C added to it and stirred until thermal equilibrium is reached. Assume all the ice melts. Important: show your work clearly for maximum partial credit! Data: c_ice = 2090 J/kg C degree; c_max = 4186 J/kg C degree; L_fusion = 3.35 times 10^5 J/kg. L_vapor = 2.26 times 10^6 J/kg. Write the single calorimetry equation for this situation in the form...
A 0.07 kg ice cube at -300C is placed in 0.43 kg of 30.30C water in...
A 0.07 kg ice cube at -300C is placed in 0.43 kg of 30.30C water in a very well-insulated container. What is the final temperature in degrees Celsius? Specific heat of ice = 2000 J/(kg.K), Specific heat of water = 4186 J/(kg.K), Latent heat of fusion of ice = 33.5 x 104 J/kg.
The value of specific heat for copper is 390 J/kg⋅C∘, for aluminun is 900 J/kg⋅C∘, and...
The value of specific heat for copper is 390 J/kg⋅C∘, for aluminun is 900 J/kg⋅C∘, and for water is 4186 J/kg⋅C∘. What will be the equilibrium temperature when a 235 g block of copper at 255 ∘C is placed in a 135 g aluminum calorimeter cup containing 825 g of water at 16.0 ∘C? Express your answer using three significant figures.
A cube of ice is taken from the freezer at -7.5 °C and placed in a 95-g aluminum calorimeter filled with 330 g of water at room temperature of 20.0 °C. The final situation is observed to be all water at 16.0 °C. The specific heat of ice is 2100 J/kg · Cº, the specific heat of aluminum is 900 J/kg . C°, the specific heat of water is is 4186 J/kg . C°, the heat of fusion of water...
The
value of specific heat for copper is 360 J/kg x C degrees, for
aluminum is 900 J/kg x C degrees, and for water is 4186 J/kg x C
degrees.
Course Home <Ch 14 HW Item 6 6 of 10 Consta The value of specific heat for copper is 390 J/kg.C.for aluminun is 900 J/kg.C. and for water is 4186 J/kg.C. Part A What will be the equilibrium temperature when a 215 g block of copper at 235 °C is...
A cube of ice is taken from the freezer at -5.5 degree C and placed in a 85-g aluminum calorimeter filled with 330 g of water at room temperature of 20.0 degree C. The final situation is observed to be all water at 16.0 degree C. The specific heat of ice is 2100 J/kg C degree, the specific heat of aluminum is 900 J/kg C degree, the specific heat of water is is 4186 J/kg. C degree, the heat of...
A. mass of 3.00 kg of water at 50 degree C has 1.00 kg of ice at 0 degree C added to it and stirred until thermal equilibrium is reached. Assume all the ice melts. Important: show your work clearly for maximum partial credit! Data: c_ice = 2090 J/kg C degree; c_max = 4186 J/kg C degree; L_fusion = 3.35 times 10^5 J/kg. L_vapor = 2.26 times 10^6 J/kg. Write the single calorimetry equation for this situation in the form...
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