A 245 g wooden cup at 18.5 C is filled with 419 mL of brewed coffee (essentially water) at 98.7 C. What will be the common final temperature (to three sig. figs.) of the cup and the coffee when thermal equilibrium is reached, if no heat is lost to the environment? ( specific heat of wood = 1695 J/kg.C)

A 245 g wooden cup at 18.5 C is filled with 419 mL of brewed coffee...
1)Brewed coffee is often too hot to drink right away. You can
cool it with an ice cube, but this dilutes it. Or you can buy a
device that will cool your coffee without dilution - a 200 aluminum
cylinder that you take from your freezer and place in a mug of hot
coffee.
q)If the cylinder is cooled to -20C, a typical freezer temperature,
and then dropped into a large cup of coffee (essentially water,
with a mass of...
1 A173.0g lead ball at 155°C is dropped into a calorimeter cup containing 210 g of water at 16.0°c. After equilibrium is reached, the temperature of water is increased to 18.2°C. What is the heat capacity of calorimeter? Assume that calorimeter and water are initially at the same temperature. (Specific heat of water is 4186 J/kg. C and specific heat of lead is 128 J/kg.C) 2. An unknown metal sample of 54 g at 108°C is dropped into a calorimeter...
Bob orders a cup of hot coffee (0.22 kg) at a café. Finding the coffee to be too hot (56°C), he decides to put ice cubes with a total mass of 21 g into the cup. The ice is at an initial temperature of -5°C. Heat of fusion of water: 3.33 x 105 J/kg Specific heat of ice: 2090 J/(kg · K) Specific heat of water: 4190 J/(kg · K). a) What is the total energy needed to warm the...
PART A: A student constructs a coffee cup calorimeter and places 50.0 mL of water into it. After a brief period of stabilization, the temperature of the water in calorimeter is determined to be 19.6 °C. To this is added 50.0 mL of water that was originally a temperature of 54.5 °C. A careful plot of the recorded temperature established T0 as 31.1 °C. What is the calorimeter constant (J/°C)? DensityH2O = 1.00 g/mL Specific HeatH2O = 4.184 J/g·°C PART...
4. You placed 43.1 g of an unknown metal at 100 °C into a coffee cup calorimeter that contained 50.0 g of water that was initially at 22.0 °C. The equilibrium temperature of mixing (T0) was determined to be 23.7 °C. The calorimeter constant was known to be 51.5 J/°C. Specific HeatH2O = 4.184 J/g·°C a. What is the total amount of heat (J) lost by the metal? NG 1.5 b. What was the specific heat (J/g·°C) of the metal?...
An irregular lump of an unknown metal has a measured density of 3.84 g/mL. The metal is heated to a temperature of 161 °C and placed in a graduated cylinder filled with 25.0 mL of water at 25.0 °C. After the system has reached thermal equilibrium, the volume in the cylinder is read at 33.7 mL, and the temperature is recorded as 37.4 °C. What is the specific heat of the unknown metal sample? Assume no heat is lost to...
< Question 9 of 10 ) A coffee cup calorimeter contains 161.10 g of water at 24.05 °C. A 68.454 g piece of iron is heated to 95.44 °C. The piece of iron is added to the coffee cup caloriemter and the contents reach thermal equilibrium at 26.95 °C. The specific heat capacity of iron is 0.449 and the specific heat capacity of water is 4.184 How much heat, q, is lost by the piece of iron? Giron How much...
Assume all temperatures to be exact. A 0.25-kg glass cup at 27?C is filled with 0.43kgof hot water at 81?C. Neglecting any heat losses to the environment, what is the equilibrium temperature of the water? C { the specific heat of glass is 840 j/kg/.c}
5. (2) The coffee cup calorimeter, although a good insulator, does absorb some heat during each experiment. If a calorimeter constant is not determined, how would this affect the specific heat of the metal? Be specific. 6. (3) An unknown metal weighing 13.11 g at a temperature of 81.0 °C is place in a calorimeter containing 25.0 mL of water at a temperature of 25.0 °C. The final equilibrium temperature is 30.0 °C. What is the specific heat of the...
A piece of metal with specific heat 0.1300 J/g oC is placed in a coffee cup calorimeter containing 432 g water at 18.00 oC. The temperature of the water rose to 25.70 oC. How much heat in kJ was lost by the metal?