A block of copper, 88.8g isinitially at 202°C. Thecopper block is placed in asmall contianer of water at21.5°C. The mass of thewater is 316g. The specific4186Jheat of water isThekg°C •specific heat of copper is385.Jkg°CThe latent heat of fussion forwater is Lf334kJkgᵒ CAssume the container is aperfect insulator and does notsignificantly affect the finaltemperature of the water-copper block system.Determine the finaltemperature of this system (in°C)?=

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A block of copper, 88.8g is initially at 202°C. The copper block is placed in a small contianer of water at 21.5°C. The mass of the water is 316g. The specific 4186J heat of water is The kg°C. specific heat of copper is 385J kgᵒ C The latent heat of fussion for water is Lf 334 kJ kg°C• Assume the container is a perfect insulator and does not significantly affect the final temperature of the water- copper block system. Determine the final =

A block of copper, 88.8g is initially at 202°C. The copper block is placed in a small contianer of water at 21.5°C. The mass of the water is 316g. The specific 4186J heat of water is The kg°C. specific heat of copper is 385J kgᵒ C The latent heat of fussion for water is Lf 334 kJ kg°C• Assume the container is a perfect insulator and does not significantly affect the final temperature of the water- copper block system. Determine the final =

University Physics Volume 2

18th Edition

ISBN:9781938168161

Author:OpenStax

Publisher:OpenStax

Chapter1: Temperature And Heat

Section: Chapter Questions

Problem 9CQ: Calculate the length of a 1-meter rod of a material with thermal expansion coefficient a when the...

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Atuve leaus irvi a nask I willen water is boiling under atmospheric pressure to a calorimeter. The mass of the calorimeter is 150 g, its specific heat capacity is 0.1 cal/g/°C, and it contains originally 340 g of water at 15°C. Steam is allowed to condense in the calorimeter until its temperature increases to 71°C, after which total mass of salarimetan and contento am found to h 515 ~ Commuta The heat of condensation of steam.