To find the percentage by mass of each element, divide the mass of each element by the total mass of the sample and multiply by 100:
Carbon: 24 g / 88 g * 100% = 27.3% (rounded to 27%)
Oxygen: 64 g / 88 g * 100% = 72.7% (rounded to 73%)
So, the sample is 27% carbon and 73% oxygen by mass.
To determine whether the reported analysis is correct, we need to check if the masses of the elements add up to the total mass of the sample:
25 g + 18 g + 20 g = 63 g
57 g ≠ 63 g
Since the masses of the elements do not add up to the total mass, the reported analysis is not accepted.
To find the mass of each metal in the necklace, multiply the weight of the necklace by the percentage of each metal:
Gold: 20 g * 75% = 15 g
Copper: 20 g * 20% = 4 g
Silver: 20 g * 5% = 1 g
So, the necklace contains 15 g of gold, 4 g of copper, and 1 g of silver.
6a) To find the mass of oxygen present, subtract the mass of the other two elements from the total mass:
5 g + 5 g = 10 g
Total mass = 10 g
Mass of other elements = 43% * 5 g + 30% * 5 g = 2.15 g + 1.5 g = 3.65 g
Mass of oxygen = 10 g - 3.65 g = 6.35 g
So, there is 6.35 g of oxygen present in the mixture.
6b) To find the percentage by mass of each element, divide the mass of each element by the total mass of the mixture and multiply by 100:
Carbon monoxide: 5 g * 43% = 2.15 g
Nitrous oxide: 4 g * 30% = 1.2 g
Sulfur dioxide: 3 g * 50% = 1.5 g (balance is oxygen: 1.5 g * 100% / 50% = 3 g)
Total mass = 5 g + 4 g + 3 g = 12 g
Mass of other elements = 2.15 g + 1.2 g + 1.5 g + 3 g = 8.85 g
Percentage of oxygen = (12 g - 8.85 g) / 12 g * 100% = 26.25% (rounded to 26%)
Percentage of sulfur = 1.5 g / 12 g * 100% = 12.5%
So, the mixture contains 26% oxygen and 12.5% sulfur by mass