This depends on the density of the solution and density depends on the concentration of sugar.
Wiki User
โ 7y agoThe mass of the sugar water would still be 40g. When a solute, like sugar, is dissolved in a solvent, like water, the mass of the solution remains the same as the individual components do not change their mass through dissolution.
To find the percent by mass of sugar: Mass of sugar = 35.8g Total mass of solution = 35.8g (sugar) + 125.35g (water) = 161.15g Percent by mass of sugar = (mass of sugar / total mass of solution) * 100 To find the percent by mass of water: Mass of water = 125.35g Total mass of solution = 161.15g (as calculated above) Percent by mass of water = (mass of water / total mass of solution) * 100
To prepare a 40% potassium chloride solution in 100g of water, you would need to calculate the mass of potassium chloride required. Since the solution is 40% potassium chloride, that means 40g of the total solution mass must be potassium chloride. Therefore, you would need to add 40g of potassium chloride to the 100g of water to prepare the solution.
To find the mass of hydrogen needed to react with 40g of copper oxide (CuO), first calculate the molar mass of CuO. Then, use stoichiometry to determine the moles of CuO present in 40g. From the balanced chemical equation CuO + H2 -> Cu + H2O, you can determine the mole ratio between CuO and H2. Finally, use the molar mass of hydrogen to calculate the mass of hydrogen needed to react.
To find the number of moles of NaOH in a 36.65g sample, you need to divide the given mass by the molar mass of NaOH. The molar mass of NaOH is 40g/mol (sodium 22.99g/mol + oxygen 16.00g/mol + hydrogen 1.01g/mol). So, 36.65g รท 40g/mol = 0.9163 moles of NaOH.
The concentration of the solution is 33.33% sugar, calculated as (25 g sugar / 75 g total mass) * 100%.
The mass of the water would be 40g - 2g = 38g. The mass of the salt would be 2g.
To find the percent by mass of sugar: Mass of sugar = 35.8g Total mass of solution = 35.8g (sugar) + 125.35g (water) = 161.15g Percent by mass of sugar = (mass of sugar / total mass of solution) * 100 To find the percent by mass of water: Mass of water = 125.35g Total mass of solution = 161.15g (as calculated above) Percent by mass of water = (mass of water / total mass of solution) * 100
When sugar is dissolved in water and the water is evaporated off, the sugar will crystallize and recrystallize, resulting in the formation of sugar crystals. The mass of the sugar will remain the same as the initial amount of sugar added to the water.
Nothing. Ignoring evaporation, the mass stays the same as ice turns to water. It's a physical change, not a chemical.
The density of the object is 2 g/cm3. This is calculated by dividing the mass (40g) by the volume (20cm3).
To prepare a 40% potassium chloride solution in 100g of water, you would need to calculate the mass of potassium chloride required. Since the solution is 40% potassium chloride, that means 40g of the total solution mass must be potassium chloride. Therefore, you would need to add 40g of potassium chloride to the 100g of water to prepare the solution.
The density of the unknown solid is 20 g/ml. This is calculated by dividing the mass (40g) by the volume (2ml).
mass is conserved (total mass is the sum of the mass of the constituents) so 50 + 50 = 100g
To find the number of moles in 40g of calcium, we need to divide the mass by the molar mass of calcium (40.08 g/mol). So 40g / 40.08 g/mol = approximately 1 mole of calcium.
When 24g of sugar dissolves in 576g of water, the total mass of the solution remains at 600g (24g + 576g). The mass of the sugar does not change when it dissolves, it simply disperses throughout the water.
the mass does not change only the shape
40g