Answer:
[tex]\displaystyle \Delta T & = 67\text{$^\circ$C}[/tex]
Explanation:
Recall that the energy change of a substance is given by:
[tex]\displaystyle q = mC\Delta T[/tex]
Where C is the substance's specific heat.
Substitute in known values and solve for ΔT:
[tex]\displaystyle \begin{aligned} (1500\text{ J}) & = (0.160\text{ kg})\left(\frac{0.14\text{ J}}{\text{g-$^\circ$C}}\right)\left(\frac{1000 \text{ g}}{1\text{ kg}}\right) \Delta T \\ \\ \Delta T & = 67\text{$^\circ$C}\end{aligned}[/tex]
In conclusion, the temperature of the mercury metal increased by 67°C.
