Help with Thermochemistry Problems: Cu & Water

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To solve the thermochemistry problem involving 30.0 g of copper at 92.0°C mixed with 150.0 mL of water at 25.0°C, the principle of conservation of energy is applied. The heat lost by the copper equals the heat gained by the water, expressed through the equation mc(Tf-Ti). By substituting the specific heat capacities and masses into the equation, the final temperature (Tf) of the combined solution is calculated. The final temperature is determined to be approximately 26.1°C. This method effectively demonstrates the heat exchange between the two substances in an insulated system.
tandoorichicken
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I don't remember at all how to do these thermochemistry problems. Can someone please guide me through?

You add 30.0 g of Cu (Specific Heat Capacity = 0.3846 J/K·g) at 92.0°C to 150.0 mL of water at 25.0°C in a very insulating calorimeter. Assuming the calorimeter constant (Cc) is zero, and knowing the Specific Heat Capacity of water is 4.18 J/K·g, what was the final temperature of the combined water/Cu metal solution?
 
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tandoorichicken said:
I don't remember at all how to do these thermochemistry problems. Can someone please guide me through?

You add 30.0 g of Cu (Specific Heat Capacity = 0.3846 J/K·g) at 92.0°C to 150.0 mL of water at 25.0°C in a very insulating calorimeter. Assuming the calorimeter constant (Cc) is zero, and knowing the Specific Heat Capacity of water is 4.18 J/K·g, what was the final temperature of the combined water/Cu metal solution?

The heat change in a particular substance (the heat entering the substance) is mc(Tf-Ti), where Tf is the final temperature of that substance, and Ti is in the initial temperature of that substance, and c is the specific heat capacity of that substance.

The total heat change of any group of isolated substances adds to 0.

So (m1)(c1)(Tf1-Ti1)+(m2)(c2)(Tf2-Ti2)+...=0

Hope this helps, and you can apply it to your particular problem.
 
tandoorichicken said:
I don't remember at all how to do these thermochemistry problems. Can someone please guide me through?

You add 30.0 g of Cu (Specific Heat Capacity = 0.3846 J/K·g) at 92.0°C to 150.0 mL of water at 25.0°C in a very insulating calorimeter. Assuming the calorimeter constant (Cc) is zero, and knowing the Specific Heat Capacity of water is 4.18 J/K·g, what was the final temperature of the combined water/Cu metal solution?
Let Tf be Final Temperature of combined water/metal solution. Then from conservation of energy:
{Heat Lost by Metal} = {Heat Gained by Water}
::: ⇒ {Metal Mass}*{Metal Heat Capacity}*{(92 + 273) - Tf} =
= {Water Mass}*{Water Heat Capacity}*{Tf - (25 + 273)}
::: ⇒ {30.0 g}*{0.3846 J/(K*g)}*{(92 + 273) - Tf} = {150.0 g}*{4.18 J/(K*g)}*{Tf - (25 + 273)}
::: ⇒ {11.54}*{365 - Tf} = {627}*{Tf - 298}
::: ⇒ (4212) - (11.54)*Tf = (627)*Tf - (186,800)
::: ⇒ (191,000) = (638.5)*Tf
::: ⇒ Tf = (299.1 degK) = (26.1 degC)


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