An unknown substance has a mass of 28.1 g. The temperature of the substance increases by...

An unknown mass of each substance, initially at 25.0 ∘C, absorbs 1950 J of heat. The...

An unknown mass of each substance, initially at 25.0 ∘C, absorbs 1950 J of heat. The final temperature is recorded. Find the mass of each substance. a) Pyrex glass (Tf = 55.3 degrees Celsius) b) sand (Tf = 62.3 degrees Celsius) c) ethanol (Tf = 44.3 degrees Celsius) d) water (Tf = 32.1 degrees Celsius)

You are given an unknown substance with mass of 400.0 g. The unknown substance is heated...

You are given an unknown substance with mass of 400.0 g. The unknown substance is heated to a temperature of 97.0°C, and then dropped into a calorimeter that is at an initial temperature of 18.0°C. The calorimeter is composed of a 140.0 g aluminum inner cup and 10.0 g stirrer (also aluminum). The mass of the inner cup plus water is 340.0 g. When equilibrium is established, the temperature is 22.0°C. There are no phase changes. 1. What is the...

An unknown substance has a mass of 0.125 kg and an initial temperature of 79.8°C. The...

An unknown substance has a mass of 0.125 kg and an initial temperature of 79.8°C. The substance is then dropped into a calorimeter made of aluminum containing 0.285 kg of water initially at 21.0°C. The mass of the aluminum container is 0.150 kg, and the temperature of the calorimeter increases to a final equilibrium temperature of 32.0°C. Assuming no thermal energy is transferred to the environment, calculate the specific heat of the unknown substance.

An unknown substance has a mass of 0.125 kg and an initial temperature of 92.5°C. The...

An unknown substance has a mass of 0.125 kg and an initial temperature of 92.5°C. The substance is then dropped into a calorimeter made of aluminum containing 0.285 kg of water initially at 27.0°C. The mass of the aluminum container is 0.150 kg, and the temperature of the calorimeter increases to a final equilibrium temperature of 32.0°C. Assuming no thermal energy is transferred to the environment, calculate the specific heat of the unknown substance.

A certain substance has a mass per mole of 50 g/mol. When 289 J is added...

A certain substance has a mass per mole of 50 g/mol. When 289 J is added as heat to a 25.5 g sample, the sample's temperature rises from 25.0 °C to 49 °C. What is the specific heat of the substance? Your answer should have units of J/kg*K, but enter only the numerical part in the box.

1. A flask containing 800 g. of water is heated. If the temperature of the water...

1. A flask containing 800 g. of water is heated. If the temperature of the water increases from 20 degrees Celsius to 85 degrees Celsius, how much heat (in joules) did the water absorb? 2. How much heat, in joules, and in calories, must be added to a 75 g. iron block with a specific heat of 0.451 J/g degree Celsius to increase its temperature from 25 degrees Celsius to its melting temperature of 1535 degrees Celsius? 3. Consider sound...

Substance A and substance B have the same mass. A has a specific heat of 0.499J/g...

Substance A and substance B have the same mass. A has a specific heat of 0.499J/g oC. B has a specific heat capacity of 4.184 J/g oC. Which one gets hotter faster? Multiple Choice. 1) B because a higher specific heat means that it takes more energy to raise the temperature of a substance. 2) B because a higher specific heat means that it takes less energy to raise the temperature of a substance. 3) A because a lower specific...

Calculate the molar mass of a substance if the addition of 48.50 g of the substance...

Calculate the molar mass of a substance if the addition of 48.50 g of the substance to 400.0 g of ethyl acetate (Kb=2.86 degrees celsius/ molality) elevated the boiling point of the ethyl acetate by 2.05 degrees celsius.

A 47.5 block of an unknown metal is heated in a hot water bath to 100...

A 47.5 block of an unknown metal is heated in a hot water bath to 100 degrees Celsius. When the block is placed in an insulated vessel containing 130.0 g of water at 25.0 degrees Celsius, the final temperature is 28.0 degrees Celsius. Determine the specific heat of the unknown metal. The Cs for water is 4.18 J/g degrees Celsius.

1. A hot lump of 46.2 g of iron at an initial temperature of 77.9 °C...

1. A hot lump of 46.2 g of iron at an initial temperature of 77.9 °C is placed in 50.0 mL of H2O initially at 25.0 °C and allowed to reach thermal equilibrium. What is the final temperature of the iron and water given that the specific heat of iron is 0.449 J/(g·°C)? Assume no heat is lost to surroundings. 2.When 1422 J of heat energy is added to 40.8 g of hexane, C6H14, the temperature increases by 15.4 °C....