The specific heat capacity of liquid water is 4. 18- 2.05 J g.°C and of ice is g.°C Which of the following statements is correct? ○ If equal masses of liquid water at 20°C and ice at 50° C are mixed, the final temperature of the mixture is 35°C О If equal masses of liquid water and ice at 50°C cool down to room temperature, liquid water liberates more heat. More heat is needed to increase the temperature of 50 g of liquid water by 50° C than 50 g of ice by 50°C If the same heat is supplied to equal masses of ice and liquid water, the temperature of the water increases more.
The specific heat capacity of liquid water is 4. 18- 2.05 J g.°C and of ice is g.°C Which of the following statements is correct? ○ If equal masses of liquid water at 20°C and ice at 50° C are mixed, the final temperature of the mixture is 35°C О If equal masses of liquid water and ice at 50°C cool down to room temperature, liquid water liberates more heat. More heat is needed to increase the temperature of 50 g of liquid water by 50° C than 50 g of ice by 50°C If the same heat is supplied to equal masses of ice and liquid water, the temperature of the water increases more.
College Physics
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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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Transcribed Image Text:The specific heat capacity of liquid water is 4. 18
J
2.05
J
g.˚C.
g-˚C
and of ice is
Which of the following statements is correct?
If equal masses of liquid water at 20°C and ice at 50°C are mixed, the
final temperature of the mixture is 35°C
If equal masses of liquid water and ice at 50° C cool down to room
temperature, liquid water liberates more heat.
More heat is needed to increase the temperature of 50 g of liquid water by
50°C than 50 g of ice by 50°C
If the same heat is supplied to equal masses of ice and liquid water, the
temperature of the water increases more.
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