A 10.54-g block of solid tin at 14.65 °C is immersed in a 21.35-g pool of...

A 12.30-g block of solid gold at 63.62 °C is immersed in a 23.29-g pool of...

A 12.30-g block of solid gold at 63.62 °C is immersed in a 23.29-g pool of liquid ethanol with a temperature of 12.25 °C. When thermal equilibrium is reached, what is the temperature of the gold and ethanol? Specific heat capacities: gold = 0.129 J/g °C; ethanol = 2.44 J/g °C ________°C

A piece of solid antimony weighing 34.3 g at a temperature of 618 °C is placed...

A piece of solid antimony weighing 34.3 g at a temperature of 618 °C is placed in 343 g of liquid antimony at a temperature of 754 °C. After a while, the solid melts and a completely liquid sample remains. Calculate the temperature after thermal equilibrium is reached, assuming no heat loss to the surroundings. The enthalpy of fusion of solid antimony is ΔHfus = 19.6 kJ/mol at its melting point of 631 °C, and the molar heat capacities for...

A piece of solid lead weighing 45.3 g at a temperature of 308 °C is placed...

A piece of solid lead weighing 45.3 g at a temperature of 308 °C is placed in 453 g of liquid lead at a temperature of 374 °C. After a while, the solid melts and a completely liquid sample remains. Calculate the temperature after thermal equilibrium is reached, assuming no heat loss to the surroundings. The enthalpy of fusion of solid lead is ΔHfus = 4.77 kJ/mol at its melting point of 328 °C, and the molar heat capacities for...

A piece of solid lead weighing 43.2 g at a temperature of 314 °C is placed...

A piece of solid lead weighing 43.2 g at a temperature of 314 °C is placed in 432 g of liquid lead at a temperature of 367 °C. After a while, the solid melts and a completely liquid sample remains. Calculate the temperature after thermal equilibrium is reached, assuming no heat loss to the surroundings. The enthalpy of fusion of solid lead is ΔHfus = 4.77 kJ/mol at its melting point of 328 °C, and the molar heat capacities for...

1) The following information is given for n-pentane at 1 atm: = 36.20°C (36.20°C) =  J/g =...

1) The following information is given for n-pentane at 1 atm: = 36.20°C (36.20°C) =  J/g = –129.70°C (–129.70°C) =  J/g Specific heat gas = 1.650 J/g °C Specific heat liquid = 2.280 J/g °C A 40.00 g sample of liquid n-pentane is initially at –27.30°C. If the sample is heated at constant pressure ( = 1 atm), _______kJ of energy are needed to raise the temperature of the sample to 53.90°C. 2) The following information is given for magnesium at 1...

ethylene glycol is a colorless liquid at room temperature with the following properties: melting point is...

ethylene glycol is a colorless liquid at room temperature with the following properties: melting point is -12.9°C. boiling point 197.3°C heat of fusion is 159.50 J/g heat of vaporization is 1056.87 J/g heat capacity of the liquid is 2.41 J/g°C heat capacity of the gas 1.25 J/g°C If you had a sample of ethylene glycol at -10°C, what state would it be in (solid, liquid, or gas) if you decreased the temperature from -10°C to -20°C what phase change would...

ethylene glycol is a colorless liquid at room temperature with the following properties melting point is...

ethylene glycol is a colorless liquid at room temperature with the following properties melting point is -12.9°C. boiling point 197.3°C heat of fusion is 159.50 J/g, heat of vaporization is 1056.87 J/g heat capacity of the liquid is 2.41 J/g°C, heat capacity of the gas 1.25 J/g°C a) If you had a sample of ethylene glycol at -10°C, what state would it be in (solid, liquid, or gas) b) if you decreased the temperature from -10°C to -20°C what phase...

A 4 g good block at 250 °C and a 1 g aluminum block at 120...

A 4 g good block at 250 °C and a 1 g aluminum block at 120 °C are placed on a 45 g sheet of copper at 20 °C. If the three objects are well-insulted from their surroundings, what equilibrium temperature do they eventually reach? The heat capacities of good, aluminum are 129, 900 and 385 J/(kgK), respectively.

The specific heat of a 90 g block of material is to be determined. The block...

The specific heat of a 90 g block of material is to be determined. The block is placed in a 25 g copper calorimeter that also holds 60 g of water. The system is initially at 20°C. Then 129 mL of water at 80°C are added to the calorimeter vessel. When thermal equilibrium is attained, the temperature of the water is 54°C. Determine the specific heat of the block.

The specific heat of a 103 g block of material is to be determined. The block...

The specific heat of a 103 g block of material is to be determined. The block is placed in a 25 g copper calorimeter that also holds 60 g of water. The system is initially at 20°C. Then 122 mL of water at 80°C are added to the calorimeter vessel. When thermal equilibrium is attained, the temperature of the water is 54°C. Determine the specific heat of the block.