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A 125-g metal block at a temperature of 93.2 °C was immersed in 100. g of water at 18.3 °C. Given the specific heat of the metal ( s = 0.900 J/g·°C), find the final temperature of the block and the water
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A 125-g metal block at a temperature of 93.2 °C was immersed in 100. g of water at 18.3 °C. Given the specific heat of the metal ( s = 0.900 J/g·°C), find the final temperature of the block and the water

User Ankit Balyan
by
5.8k points

1 Answer

2 votes

Answer:

34.17°C

Step-by-step explanation:

Given:

mass of metal block = 125 g

initial temperature
T_i = 93.2°C

We know


Q = m c \Delta T ..................(1)

Q= Quantity of heat

m = mass of the substance

c = specific heat capacity

c = 4.19 for H₂O in
J/g^(\circ)C


\Delta T = change in temperature

Now

The heat lost by metal = The heat gained by the metal

Heat lost by metal =
125* 0.9* (93.2-T_f)

Heat gained by the water =
100* 4.184*(T_f -18.3)

thus, we have


125* 0.9* (93.2-T_f) =
100* 4.184*(T_f -18.3)


10485-112.5T_f = 418.4T_f - 7656.72


T_f = 34.17^oC

Therefore, the final temperature will be = 34.17°C

User Easton Bornemeier
by
4.8k points
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