A 45.0 g sample of an alloy was heated to 90.0°C and then dropped into a...

A 190.0 g piece of lead is heated to 87 °C and then dropped into a...

A 190.0 g piece of lead is heated to 87 °C and then dropped into a calorimeter containing 679.0 g of water that initially is at 20.0°C. Neglecting the heat capacity of the container, find the final equilibrium temperature, in °C, of the lead and water. --Show all work please! Thank you

A 35.7 gram sample of iron (heat capacity 0.45 g/J°C) was heated to 99.10 °C and...

A 35.7 gram sample of iron (heat capacity 0.45 g/J°C) was heated to 99.10 °C and placed into a coffee cup calorimeter containing 42.92 grams of water initially at 15.15 °C. What will the final temperature of the system be? (Specific heat of water is 4.184 J/g°C). Please show work.

008 A 0.0456 kg ingot of metal is heated to 215◦C and then is dropped into...

008 A 0.0456 kg ingot of metal is heated to 215◦C and then is dropped into a beaker containing 0.415 kg of water initially at 19◦C. If the final equilibrium state of the mixed system is 21.4 ◦C, find the specific heat of the metal. The specific heat of water is 4186 J/kg · ◦ C. Answer in units of J/kg · ◦ C.

A block of an alloy of mass 37.0 g and at a temperature of 15.51 °C...

A block of an alloy of mass 37.0 g and at a temperature of 15.51 °C is placed in a calorimeter containing 41.0 g of water at 81.93 °C. If the final temperature of the alloy and water is 39.77 °C, calculate the specific heat (in J/g/K) of the metal. The specific heat of water is 4.184 J/g/K. Express your answer to ***(((three significant figures)) in scientific notation.

A 30.5 g sample of an alloy at 91.9°C is placed into 49.4 g water at...

A 30.5 g sample of an alloy at 91.9°C is placed into 49.4 g water at 25.0°C in an insulated coffee cup. The heat capacity of the coffee cup (without the water) is 9.2 J/K. If the final temperature of the system is 31.1°C, what is the specific heat capacity of the alloy? (c of water is 4.184 J/g×K) ____J/g°C?

A 235-g sample of a substance is heated to 320 ∘C and then plunged into a...

A 235-g sample of a substance is heated to 320 ∘C and then plunged into a 105-g aluminum calorimeter cup containing 175 g of water and a 17-g glass thermometer at 10.5 ∘C. The final temperature is 35.0∘C. The value of specific heat for aluminium is 900 J/kg⋅C∘ , for glass is 840 J/kg⋅C∘ , and for water is 4186 J/kg⋅C∘ . Part A What is the specific heat of the substance? (Assume no water boils away.) Express your answer...

A 215-g sample of a substance is heated to 350 ∘C and then plunged into a...

A 215-g sample of a substance is heated to 350 ∘C and then plunged into a 105-g aluminum calorimeter cup containing 185 g of water and a 17-g glass thermometer at 12.5 ∘C. The final temperature is 35.0∘C. The value of specific heat for aluminium is 900 J/kg⋅C∘ , for glass is 840 J/kg⋅C∘ , and for water is 4186 J/kg⋅C∘ What is the specific heat of the substance? (Assume no water boils away.) Express your answer using three significant...

A 48.2 g sample of a metal is heated to 95.8 degrees C and placed in...

A 48.2 g sample of a metal is heated to 95.8 degrees C and placed in a coffee-cup calorimeter containing 79.0 g of water at a temperature of 18.5 degrees C. After the metal cools, the final temperature of the metal and water is 22.8 degrees C. Calculate the specific heat capacity of the metal, assuming that no heat escapes to the surroundings or is transferred to the calorimeter.

A iron cube with a mass of 25.0 grams was heated to 90 °C. Then dropped...

A iron cube with a mass of 25.0 grams was heated to 90 °C. Then dropped to a cup containing 100 grams of water at a temperature of 23.0 °C. After 10 minutes, the water and metal came to a temperature of 27 °C. Calculate the specific heat capacity of the metal?

A 55.1-g sample of an alloy at 93.0°C is placed into 154 g of water at...

A 55.1-g sample of an alloy at 93.0°C is placed into 154 g of water at 22.0°C in an insulated coffee cup. Assume that no heat is absorbed by the cup. If the final temperature of the system is 31.1°C, what is the specific heat capacity of the alloy in J/(g.K)? Don't include units. cH2O = 4.184 J/g.K