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Copper Has A Hfus = 13.0 Kj/Mol. What Mass Of Copper Releases 112.4 Kj Of Heat As It Freezes? Use . 9.42 G 6.75 G 549 G 1590 G. 9.42 g 6.75 g 549 g 1590 g 1 convert the heat released from kj to j:
H 2 (g) + i 2 (g) ⇌ 2 h i (g) k c = 53.3 at this temperature, 0.800 mol h 2 and 0.800 mol i 2 were. The mass of copper releases 112.4 kj of heat as it freezes is 549 gm.what is heat of fusion?the most typical illustration is when solid ice transforms into liquid Copper has a hfus = 13.0 kj/mol.
At a certain temperature, the equilibrium constant, k c , for this reaction is 53.3: 1 convert the heat released from kj to j: 1 calculate the number of moles of copper using the given heat released and the enthalpy of fusion equation:
9.42 g 6.75 g 549 g 1590 g 112.4 kj * 1000 j/kj = 112400 j 2 calculate the moles of copper that freeze using the equation q = nδh: H 2 (g) + i 2 (g) ⇌ 2 h i (g) k c = 53.3 at this temperature, 0.800 mol h 2 and 0.800 mol i 2 were.
The mass of copper releases 112.4 kj of heat as it freezes is 549 gm.what is heat of fusion?the most typical illustration is when solid ice transforms into liquid Use q = n h. To find the mass of copper that releases 112.4 kj of heat as it freezes, we can use the equation:
Copper has a hfus = 13.0 kj/mol.
