Asked by Johny
mass of crucible- 26.4574g
mass of crucible and hydrated sample- 27.7617g
mass of hydrated sample 1.3043g
mass of crucible and dehydrated sample- 27.5693g
mass of dehydrated sample- 1.1119g
mass of filter paper- 0.7089g
mass of filter paper and copper- 1.1418g
mass of copper- ?
no. moles of copper- ?
mass of water evolved- ?
no. moles of water- ?
mass of chlorine in sample (by difference)- ?
no. moles of chlorine- ?
mole ratio, chlorine:copper in sample- ?
mole ratio, water:copper in hydrated sample- ?
formula of dehydrated sample (round to nearest integer- ?
formula of hydrated sample- ?
mass of crucible and hydrated sample- 27.7617g
mass of hydrated sample 1.3043g
mass of crucible and dehydrated sample- 27.5693g
mass of dehydrated sample- 1.1119g
mass of filter paper- 0.7089g
mass of filter paper and copper- 1.1418g
mass of copper- ?
no. moles of copper- ?
mass of water evolved- ?
no. moles of water- ?
mass of chlorine in sample (by difference)- ?
no. moles of chlorine- ?
mole ratio, chlorine:copper in sample- ?
mole ratio, water:copper in hydrated sample- ?
formula of dehydrated sample (round to nearest integer- ?
formula of hydrated sample- ?
Answers
Answered by
DrBob222
<b>I filled in the empty spots I could but didn't finish. I understand that the chlorine is by difference but I don't know what you did; therefore, I don't know where the chlorine came from.</b>
mass of crucible- 26.4574g
mass of crucible and hydrated sample- 27.7617g
mass of hydrated sample 1.3043g
mass of crucible and dehydrated sample- 27.5693g
mass of dehydrated sample- 1.1119g
mass of filter paper- 0.7089g
mass of filter paper and copper- 1.1418g
mass of copper- <b>1.1418-0.7089 = 0.4329</b
no. moles of copper- <b> grams/atomic mass = 0.4329/63.54 = about 0.007 but you can do it more accurately.</b>
mass of water evolved- <b> 1.3043-1.1119 = 0.1924</b>
no. moles of water- <b> g/molar mass = 0.1924/18 = about 0.01--again--you redo this</b>
mass of chlorine in sample (by difference)- ?
no. moles of chlorine- ?
mole ratio, chlorine:copper in sample- ?
mole ratio, water:copper in hydrated sample- ?
formula of dehydrated sample (round to nearest integer- ?
formula of hydrated sample- ? </b>
mass of crucible- 26.4574g
mass of crucible and hydrated sample- 27.7617g
mass of hydrated sample 1.3043g
mass of crucible and dehydrated sample- 27.5693g
mass of dehydrated sample- 1.1119g
mass of filter paper- 0.7089g
mass of filter paper and copper- 1.1418g
mass of copper- <b>1.1418-0.7089 = 0.4329</b
no. moles of copper- <b> grams/atomic mass = 0.4329/63.54 = about 0.007 but you can do it more accurately.</b>
mass of water evolved- <b> 1.3043-1.1119 = 0.1924</b>
no. moles of water- <b> g/molar mass = 0.1924/18 = about 0.01--again--you redo this</b>
mass of chlorine in sample (by difference)- ?
no. moles of chlorine- ?
mole ratio, chlorine:copper in sample- ?
mole ratio, water:copper in hydrated sample- ?
formula of dehydrated sample (round to nearest integer- ?
formula of hydrated sample- ? </b>
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