The answer is 90,08 g glucose.
The formula is C6H12O6 which is 180g/mole. Divide that in half for 90g in one liter of water for a 0.5 molar solution
Not if the solution contained only glucose and water.
Glucose is a NON-ELECTROLYTE. Since it doesn't dissociate to give ions in a solvent such as water. Since glucose dissolves as intact molecule in water therefore on dissolving 1 mole of glucose in 1 L water we should get 1 molar solution of glucose.
Water will diffuse from solution B to solution A
100 mL of solution 1 M mixed with 900 mL distilled water
about 0.5 mol in 0.5 L or 0.5 kg solution
The formula is C6H12O6 which is 180g/mole. Divide that in half for 90g in one liter of water for a 0.5 molar solution
180
Not if the solution contained only glucose and water.
1 molar solution of sugar water contains 342,3 g sucrose.
Glucose is the solute; water is the solvent.
A 1 molar solution by definition is 1 mole of something, in this case glucose, in 1 liter of solution. The molecular weight of something can be found on the perdiodic table. The weight listed on the periodic table is the grams in a mole, these of course are for atoms. 12 H + 6 C +6O + 188.1558 grams in a mole of glucose. Put this weight into one liter of water.
Glucose is a NON-ELECTROLYTE. Since it doesn't dissociate to give ions in a solvent such as water. Since glucose dissolves as intact molecule in water therefore on dissolving 1 mole of glucose in 1 L water we should get 1 molar solution of glucose.
Water will diffuse from solution B to solution A
A 30% glucose solution is purely glucose and water, though it is actually impossible to keep other contaminants out of it. To create a 30% solution of glucose, you take a fixed volume of water and add 30% of that value of glucose to the water. The amount of glucose is in grammes. For example, 3g of glucose would be added to 10ml of water.
100 mL of solution 1 M mixed with 900 mL distilled water
One liter of a one molar solution of NaOH in water contains 40g of NaOH. The quantity must be known.