# An object with a mass of 5 kg, temperature of 163 ^oC, and a specific heat of 17 J/(kg*K) is dropped into a container with 32 L  of water at 0^oC . Does the water evaporate? If not, by how much does the water's temperature change?

Apr 9, 2018

The water will not evaporate and the change in temperature is $= {0.1}^{\circ} C$

#### Explanation:

The heat is transferred from the hot object to the cold water.

Let $T =$ final temperature of the object and the water

For the cold water, $\Delta {T}_{w} = T - 0 = T$

For the object $\Delta {T}_{o} = 163 - T$

${m}_{o} {C}_{o} \left(\Delta {T}_{o}\right) = {m}_{w} {C}_{w} \left(\Delta {T}_{w}\right)$

The specific heat of the object is ${C}_{o} = 0.017 k J k {g}^{-} 1 {K}^{-} 1$

The mass of the object is ${m}_{0} = 5 k g$

The volume of water is $V = 32 L$

The density of water is $\rho = 1 k g {L}^{-} 1$

The mass of the water is ${m}_{w} = \rho V = 32 k g$

$5 \cdot 0.017 \cdot \left(163 - T\right) = 32 \cdot 4.186 \cdot T$

$163 - T = \frac{32 \cdot 4.186}{5 \cdot 0.017} \cdot T$

$163 - T = 1575.9 T$

$1576.9 T = 163$

$T = \frac{163}{1576.9} = {0.1}^{\circ} C$

As the final temperature is $T < {100}^{\circ} C$, the water will not evaporate.