Mixing 10.0 g of CaC2 and 25.0 mL of H2O (ρ = 0.997044 g/mL) conforms to the thermochemical equation below:  CaC2(s)  +  2 H2O(l)  ➜  Ca(OH)2(s)  +  C2H2(g)  ΔH° = –127.2 kJ Molar masses: CaC2: 64.100 g/mol H2O: 18.015 g/mol Ca(OH)2: 74.092 g/mol C2H2: 26.038 g/mol A. Which statement applies? ·  51.3 g Ca(OH)2 is formed. ·  4.06 g C2H2 is formed. ·  H2O is the limiting reagent. ·  1.81 g CaC2 remains.   B. Determine the amount of heat involved. ·  –19.8 kJ ·  –88.0 kJ ·  19.8 kJ

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Mixing 10.0 g of CaC2 and 25.0 mL of H2O (ρ = 0.997044 g/mL) conforms to the thermochemical equation below: 

CaC2(s)  +  2 H2O(l)  ➜  Ca(OH)2(s)  +  C2H2(g)  ΔH° = –127.2 kJ

Molar masses:
CaC2: 64.100 g/mol
H2O: 18.015 g/mol
Ca(OH)2: 74.092 g/mol
C2H2: 26.038 g/mol

A. Which statement applies?

·  51.3 g Ca(OH)2 is formed.
·  4.06 g C2H2 is formed.
·  H2O is the limiting reagent.
·  1.81 g CaC2 remains.
 
B. Determine the amount of heat involved.

·  –19.8 kJ
·  –88.0 kJ
·  19.8 kJ
·  88.0 kJ

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