Question

What is the final temperature of the copper and water given that the specific heat of copper is 0.385 `J/(g * "^oC)`?

A hot lump of 48.7 g of copper at an initial temperature of 76.8 C is placed in 50.0 mL of `H_2O` initially at 25.0°C and allowed to reach thermal equilibrium. Assume no heat is lost to surroundings.

Answer 1

`T_f = 29.3 °C`

Explanation:

Here, we're setting the heat values derived given the equation:

`q = mC_sDeltaT`

equal to each other, as such,

`q_(water)+q(Cu) = 0`
`therefore q_(water) = -q(Cu)`

Before we start, I will assume the density of water is `"1.00 g/mL"`.

`50.0 g*(4.184J)/(g*°C)*(T_f-25.0°C) = -[48.7g*(0.385J)/(g*°C)*(T_f-76.8°C)]`

`209.2T_f - 5230 °C = -18.75T_f + 1440 °C`

`227.95T_f = 6670 °C`

`therefore T_f = 29.3°C`