A 0.310 kg aluminum bowl holding 0.810 kg of soup at 25.0°C is placed in a freezer. What is the final temperature (in °C) if 381 kJ of energy is transferred from the bowl and soup, assuming the soup's thermal properties are the same as that of water?
A 0.310 kg aluminum bowl holding 0.810 kg of soup at 25.0°C is placed in a...
A 0.250-kg aluminum bowl holding 0.800 kg of soup at 25.0°C is placed in a freezer. What is the final temperature if 424 k) of energy is transferred from the bowl and soup? Assume the soup has the same thermal properties as that of water, the specific heat of the liquid soup is 1.00 kcal/(kg. °C), frozen soup is 0.500 kcal/(kg. °C), and the latent heat of fusion is 79.8 kcal/kg. The specific heat of aluminum is 0.215 kcal/(kg ....
A 0.230 kg Al bowl has 0.815 kg of soup at 25.0°C and placed in a freezer. What is the final temperature (in °C) if 381 kJ of is transferred from it to freezer? Assume the soup's thermal properties of water.
(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 0.250-kg aluminum bowl holding 0.800 kg of soup at 26.0°C is placed in a freezer. What is the final temperature if 422 kJ of energy is transferred from the bowl and soup? Assume the soup has the same thermal properties as that of water, the specific heat of the liquid soup is 1.00 kcal/(kg · °C), frozen soup is 0.500 kcal/(kg · °C), and the latent heat of fusion is 79.8 kcal/kg. The specific heat of aluminum is 0.215...
A 0.250-kg aluminum bowl holding 0.800 kg of soup at 30.8 C is placed in a freezer. What is the final temperature if 402 kJ of energy is transferred from the bowl and soup to the surroundings? Assume the soup has the same thermal properties as that of water, the specific heat of the liquid soup is 1.00 kcal/(kg·°C), frozen soup is 0.500 kcal/(kg·°C), and the heat of fusion is 79.8 kcal/kg. The specific heat of aluminum is 0.215 kcal/(kg·°C)...
Please help (9%) Problem 8: A 0.26-kg aluminum bowl holding 0.65 kg of soup at 25.0°C is placed in a freezer. Specific heat (c) ubstance Solids Aluminum Concrete 900 840 387 840 2090 0.20 0.0924 0.20 Glass Ice (average Liquids Water 4186 1.000 Gases Steam (100C) 1520 (2020) 0.363(0.482) Ctheexpertta.com 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...
A large punch bowl holds 3.20 kg of lemonade (which is essentially water) at 25.0 ∘C. A 5.40×10−2-kg ice cube at -12.0 ∘C is placed in the lemonade. What is the final temperature of the system? Ignore any heat exchange with the bowl or the surroundings.
if a 100 kg sample of aluminum at 25.0 °C is heated with 500 kJ of heat energy, what will be the final temperature of the metal sample? The specific heat of aluminum is 0.897 J/ g• °C
A 130 g copper bowl contains 210 g of water, both at 25.0°C. A very hot 450 g copper cylinder is dropped into the water, causing the water to boil, with 16.9 g being converted to steam. The final temperature of the system is 100°C. Neglect energy transfers with the environment. (a) How much energy is transferred to the water as heat? (b) How much to the bowl? (c) What is the original temperature of the cylinder? The specific heat...
A 0.4 kg aluminum bowl contains 1 kg of H2O at 20°C. The latent heat of water is 334 x 103 J/kg. The specific heat of aluminum is 900 J/(kg°C). The specific heat for water is 4190 J/(kgK). The bowl and water are at thermal equilibrium. How many joules of heat is required to bring the water in the bowl to equilibrium at 10°C?