Calculate the change in heat with correct mathematical sign that occurs as

225.0g

of water cools from steam at steam at

210\\\\deg C

to ice at

210K

. You may find the constants listed below helpful. Note that the enthalpies of fusion and vaporization are shown here in units of

(J)/(g)

, so the determination of those values involves the MASS of the water (not moles) and the enthalpy values

(q

)

=

(

m\\\\Delta H)

.\

Ice: s=2.05(J)/(g)K\ Water: s=4.184(J)/(g)K\ Steam: s=2.00(J)/(g)K\ \\\\Delta H_(fus )=+333.6(J)/(g)\ \\\\Delta H_(vap )=+2439(J)/(g)

Calculate the change in heat with correct mathematical sign that occurs as 225.0g of water cools from steam at steam at 210C to ice at 210K. You may find the constants listed below helpful. Note that the enthalpies of fusion and vaporization are shown here in units of J/g, so the determination of those values involves the MASS of the water (not moles) and the enthalpy values (q=mAH). Ice:s=2.05J/gKWater:s=4.184J/gKSteam:s=2.00J/gKHfus=+333.6J/gHvap=+2439J/g Calculate the change in heat with correct mathematical sign that occurs as 225.0g of water cools from steam at steam at 210C to ice at 210K. You may find the constants listed below helpful. Note that the enthalpies of fusion and vaporization are shown here in units of J/g, so the determination of those values involves the MASS of the water (not moles) and the enthalpy values (q=mAH). Ice:s=2.05J/gKWater:s=4.184J/gKSteam:s=2.00J/gKHfus=+333.6J/gHvap=+2439J/g