C6H12O6 is the molecular formula for sugar (glucose).
Molecular mass/ molecular weight = (Number of C atoms) (Atomic weight of C) +
(Number of H atoms) (Atomic weight of H) +
(Number of O atoms) (Atomic weight of O) = (6) (12) + 12 (1) + 6 (16) = 180 (g/mole)
c2 is 24, O6 is 96, H12 is 12.
molecular mass is 132g/mol
It stands for glucose: 180 g/mole
What is the mass of 1 mol of C6H12O6?
180.15588 g/mol
2 moles in 2 liters means 1 mole in 1 liter - so it its molarity is 1.
= 0.75 mol x 32 g.mol-1 = 24 g
1 mol = 197g therefore, 32 mol = 6306 grams
A mol is a mol is a mol - no. A mol is a standard unit of measurement and thus any substance, when designated a "mol" will have the same number of particles. Therefore, a mol of salt would have the same number of particles as a mol of sugar. It is like asking if a pound of feathers would weigh more or less than a pound of steel.
Carbon monoxide, CO, has one atom of carbon and one atom of oxygen. The molar mass of carbon is 12.0107 g mol-1 and the molar mass of oxygen is 15.9994 g mol-1, so the molar mass of CO is 28.0101 g mol-1.
The molecular mass of C2H6 is 30.07 g/mole
0.260 mole C6H12O6 (6.022 X 10^23/1 mole C6H12O6) = 1.57 X 10^23 atoms of glucose
.292 mol
According to the periodic table, the atomic mass of rubidium, Rb is 85.5. This is numerically equal to the molar mass in g/mol. Therefore the mass of 1 mol of Rb is 85.5g.Mass of 1 mol means the molar mass of the element. Molar mass of Rubidium is 85.47 gmol-1. Rb is in the 1st group.
Total sugar content is percentage by mass of sucrose (saccharose, C12H22O11, molecular mass 342 g/mol)Invert sugar content is percentage by mass of the glucose (C6H12O6, molecular mass 180 g/mol) and fructose (also C6H12O6, molecular mass 180 g/mol) mixture produced from saccharose (C12H22O11) and water (H2O) by 'invertase' reaction:saccharose (C12H22O11) + H2O --> glucose (C6H12O6) + fructose (C6H12O6)Through this reaction the mass of total sugar increases 18 g (by 'addition' of water to the molecular formulae) per mole (342g) of sucrose. This is about 5% increase in mass and concentration value.The total molarity is doubled, the sweetness also increased (about 20-30%) after inversion reaction.
2 moles in 2 liters means 1 mole in 1 liter - so it its molarity is 1.
Molarity = moles of solute/Liters of solution ( 450 ml = 0.450 liters) 5M C6H12O6 = moles C6H12O6/0.450 liters = 2.25 moles C6H12O6 (180.156 grams/1 mole C6H12O6) = 405.351 grams of glucose ( you do significant figures )
4 mol over 0.800 kg
To find the mass of one mole of a compound you must find the mass of a mole of the component elements and add them together. Just as an added side note the molar mass of any element is that elements standard Atomic Mass as listed on the Periodic Table in grams. An example of this would H2O, hydrogen: 1 mole = 1.0794g/mol, Oxygen: 1 mole = 16.00g/mol. Based on these numbers one calculates the molar mass of H2O to be two moles of Hydrogen and one mole of Oxygen or ~18.16g/mol. I will also offer a second example to help further clarify this idea. For this the chemical compound is glucose C6H12O6. hydrogen: 1 mole = 1.0794g/mol, Oxygen: 1 mole = 16.00g/mol, Carbon: 1 mole = 12.0g/mol. So one calculates that Glucose has a molar mass of six moles of carbon, twelve moles of hydrogen, and six moles of oxygen or ~ 181g/mol. Well hope this helps.
Well first you should determine the molecular mass of your glucose molecule, then you should divide the molecular mass of all the carbon by this, if I recall correctly. Should look something like (12X6) / ((6X12)+(12X1)+(6X16)) All multiplied by 100 to make it a percentage. Gives something like 40% which sounds like the right answer looking at the question.
65.38(4) g mol-1
Mole / Molar mass = mass = 0.118 [mol] /169.87 [g mol−1] = 20.05 grams