Explanation Given: ΔH fusion = 334 J g ƊH vaporization = 2258.3 J/g C p(ice) = 2.09 J g ° C C p(vapor) = 2.01 J g ° C T intial = 145 ° C T final = − 50° C We will need to consider sensible and latent heat in this specific case. The next steps will occur 1. Vapor will release heat form 145° to 100° C 2. Vapor will condense at 100° C and convert to water. 3. Water at 100° C releases heat to achieve 0° C 4. Water will convert to ice via freezing at 0° C 5. Ice at 0° C will release heat to convert to ice at 50° C Each step requires a heat equation. Note that of steam is equals to 18.0 grams. Formula used: Q ice = (Mass)(C p(ice) )(T final − T initial ) Q fusion = −(Mass)(heat of fusion) Q water = (Mass)(C p(water) )(T final − T initial ) Q vaporization = −(Mass)(heat of vaporization) Q vapor = (Mass)(C p(vapor) )(T final − T initial ) Calculations: Mass of vapor = 18...

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Chapter 12, Problem 70E

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To determine:

Heat required to convert 1 mol of steam at 145° to ice at −50°.

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Heat required to convert 1 mol of steam at 145° to ice at −50°.

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To determine: Heat required to convert 1 mol of steam at 145° to ice at −50°.

Chapter 12 Solutions

To determine:

Heat required to convert 1 mol of steam at 145° to ice at −50°.