Answer:
The mass of the given gold bar: m = 1.8 × 10² g
Explanation:
The Specific heat capacity (c) of a given substance is defined as the heat capacity (C) per unit mass (m) or the energy required (Q) to increase the temperature (ΔT) of the given substance per unit mass.
∴ The specific heat capacity: [tex]c = \frac{C}{m} =\frac{Q}{m\times \Delta T}[/tex]
Given: The specific heat capacity of gold (Au) = 0.128 J/g°C
The increase in temperature: ΔT = 34.7°C - 30.0°C = 4.7°C
Heat energy: Q = 0.108 kJ = 0.108 × 1000 J = 108 J (∵ 1 kJ = 1000J)
Mass of the given gold bar: m = ?
Therefore, the mass of the given gold bar:
[tex]m = \frac{Q}{c\times \Delta T}[/tex]
[tex]m = \frac{108 J}{(0.128 J/g.^{\circ }C)\times (4.7 ^{\circ }C)}[/tex]
[tex]m = 179.5 g = 1.795\times 10^{2} g [/tex]
[tex]\therefore m \approx 1.8 \times 10^{2} g[/tex]
Therefore, the mass of the given gold bar: m = 1.8 × 10² g
