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cu 10 Question (1 point In an experiment, 28.5g of metal was heated to 98.0°C and...
In an experiment, 26.0 g of metal was heated to 98.0°C and then quickly transferred to 150.0 g of water in a calorimeter. The initial temperature of the water was 26.0°C, and the final temperature after the addition of the metal was 32.5°C. Assume the calorimeter behaves ideally and does not absorb or release heat. What is the value of the specific heat capacity (in J/g•°C) of the metal?
a See page 236 06 Question (1 point) 27.5 g of metal was heated to 98.0°C and then quickly transferred to 150.0 g of water in a calorimeter.The initial temperature of the water was 25.0 C.and the final temperature after the addition of the metal was 32.5"C.Assume the calorimeter behaves ideally and does not absorb or release heat. 2nd attempt
In an experiment, 24.5 g of metal was heated to 98.0°C and then quickly transferred to 150.0 g of water in a calorimeter. The initial temperature of the water was 27.0°C, and the final temperature after the addition of the metal was 32.5°C. Assume the calorimeter behaves ideally and does not absorb or release heat. i keep getting 2.15, but the program is telling me thats wrong
- Dowling ringtones. Searching bells ring. Download the Gra... PLAY FAN MADE M Gmail YouTube Maps News Children's Hospital Mic en Reactions 04/17/20 20% 1 This is a Numeric Entry question / It is worth 2 points/ You have unlimited attempts/There is no attempt penalty 05 Question (2 points) @ See page 236 In an experiment, 24.0 g of metal was heated to 98.0°C and then quickly transferred to 150.0 g of water in a calorimeter. The initial temperature of...
. A 150.0 g sample of a Metal was heated to 95.0°C. When the hot metal was placed into 100.0 g of water in a calorimeter, the temperature of the water increased from 20.0°C to 35.0°C. The specific heat of water is 4.184 J/g °C. a) What is the specific heat of the metal? Kb) What would the final temperature be if the mass of water was 150.0 q?
2. DANS A piece of unknown metal weighs 100.0 g. It is heated to 98.0°C before it was dropped into a calorimeter containing 50.0 g of water at 22.0°C. The final temperature was observed to be 26.4'C. Calculate the specific heat capacity of the metal. Type your answer
A 45.90 g sample of pure copper is heated in a test tube to 99.40°C. The copper sample is then transferred to a calorimeter containing 61.04 g of deionized water. The water temperature in the calorimeter rises from 24.47°C to 29.10°C. The specific heat capacity of copper metal and water are J J 0.387 and 4.184 respectively. gr°C g. °C Assuming that heat was transferred from the copper to the water and the calorimeter, determine the heat capacity of the...
A 45.90 g sample of pure copper is heated in a test tube to 99.40°C. The copper sample is then transferred to a calorimeter containing 61.04 g of deionized water. The water temperature in the calorimeter rises from 24.39°C to 29.10°C. The specific heat capacity of copper metal and water are J J 0.387 and 4.184 respectively. - 9 Assuming that heat was transferred from the copper to the water and the calorimeter, determine the heat capacity of the calorimeter....
2. (15 pts) A 83.5 g sample of a metal alloy is heated to 88.1°C and it is then placed in a coffee-cup calorimeter containing 30.0 g water at 15.0°C. The final temperature of the metal + water is 25.3 °C. Calculate the specific heat of metal alloy, in J/(g°C), assuming no heat escapes to the surroundings or is transferred to the calorimeter. The specific heat of water is 4.184 J/(g°C).
A sample of metal with a mass of 650.0 g is heated to 98.0 degree Celsius and dropping into 500.0 g of water at 28.4 degree Celsius. The water temperature raises to 39.0 C. Assume there is not heat lost to the environment. Calculate the specific heat of metal.