How much energy ( in joules ) is released when 0.06 kilograms of mercury is condensed to a liquid at the same temperature ?

A. 697.08 J
B. 17,705.1 J
C. 20,075.04 J
D. 51,302.88 J

Please include how you got your answer , thank you.

The energy ( in joules ) released when 0.06 kilograms of mercury is condensed to a liquid at the same temperature is about 697.08 J. in other to solve this problem, should know the latent heat of fusion of mercury which is equal to about 11.4 kJ/kg and multiplying by mass of mercury.

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skyluke89 skyluke89 · Answer 2 · 2019-01-03T16:15:58+01:00

Answer:

B. 17,705.1 J

Explanation:

The hear released when the mercury condenses into a liquid is given by:

[tex]Q=m \lambda_v[/tex]

where

m = 0.06 kg is the mass of the mercury

[tex]\lambda_v[/tex] is the latent heat of vaporization

For mercury, the latent heat of vaporization is [tex]\lambda_v = 296 kJ/kg[/tex], so the heat released during the process is:

[tex]Q=(0.06 kg)(296 kJ/kg)=17.76 kJ = 17,760 J[/tex]

So, the closest option is

B. 17,705.1 J

How much energy ( in joules ) is released when 0.06 kilograms of mercury is condensed to a liquid at the same temperature ? A. 697.08 J B. 17,705.1 J C. 20,075.04 J D. 51,302.88 J Please include how you got your answer , thank you.

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How much energy ( in joules ) is released when 0.06 kilograms of mercury is condensed to a liquid at the same temperature ?

A. 697.08 J
B. 17,705.1 J
C. 20,075.04 J
D. 51,302.88 J

Please include how you got your answer , thank you.