Answer:
The specific heat of the metal sample is 1.7583 J/g°C.
Step-by-step explanation:
When the metal sample and water sample are mixed,
The addition of metal increases the temperature of the water, as the metal is at higher temperature, and the addition of water decreases the temperature of metal. Therefore, heat lost by metal is equal to the heat gained by water.
Given,
For Metal sample,
mass = 32 grams
T = 85°C
For Water sample,
mass = 65 grams
T = 15°C.
Since, heat lost by metal is equal to the heat gained by water,
Qlost = Qgain
However,
Q = (mass) (ΔT) (Cp)
(mass) (ΔT) (Cp) = (mass) (ΔT) (Cp)
After mixing both samples, their temperature changes to 27°C.
It implies that
water sample temperature changed from 15°C to 27°C and metal sample temperature changed from 85°C to 27°C.
Since, Specific heat of water = 4.184 J/g°C
Let Cp be the specific heat of the metal.
Substituting values,
(32)(85°C - 27°C)(Cp) = (65)(27°C - 15℃)(4.184)
By Solving,
Cp = 1.7583 J/g°C.
Therefore, specific heat of the metal sample is 1.7583 J/g°C.