Respuesta :
Answer:
We are heating the sample repeatedly to become a pure compound of only MgSO4 (withot H2O) and a constant mass.
Explanation:
Step 1: Data given
Mass of MgSO4·7H2O = 5.06 grams
The remaining MgSO4 had a constant mass of 2.47 grams.
Step 2: Explain why the sample in the crucible was heated repeatedly until the sample had a constant mass.
Before heating the compound has magnesium sulfate and water.
The total mass of this compound is 5.06 grams
By heating we try to eliminate the water.
After heating there remain mgSO4 with a mass of 2.47 grams
This means 5.06 - 2.47 = 2.59 grams is water. All of this is eliminated.
The heating process happens repeatedly to make sure the final compound is pure. So the 2.47 grams os only MgSO4. If the mass would not be constant. It means the compound is not pure, the not all the water is eliminated yet.
So we are heating the sample repeatedly to become a pure compound of only MgSO4 (withot H2O) and a constant mass.
The sample in the crucible was heated repeatedly to constant mass so that we can be sure the sample remaining is pure MgSO4.
Since according to the question:
Mass of MgSO4·7H2O = 5.06 grams
The remaining MgSO4 had a constant mass of 2.47 grams.
We are required to explain why the sample in the crucible was heated repeatedly until the sample had a constant mass.
The material prior to heating contains Magnesium sulfate and water and;
- The total mass of this compound is 5.06 grams
On heating, water is given off
After heating there remain MgSO4 with a mass of 2.47 grams
This means 5.06 - 2.47 = 2.59 grams is water. All of this is eliminated.
In essence, the reason for repeatedly heating the material is so that the magnesium sulfate obtained is pure in which case, we are required to heat until the mass is constant at 2.47 grams.
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