According to the NISTUnits=SI
Sucrose has the empirical formula (good enough for this question, full chemical formula not needed) of C12H22O11. That's 12 Carbons, 22 Hydrogens, and 11 Oxygens. Therefore 12+22+11=45 atoms in one molecule of sucrose.
One molecule of sucrose is composed of 12 carbon atoms, 22 hydrogen atoms, and 11 oxygen atoms, totaling 45 atoms. This means that there are 45 particles in a single molecule of sucrose.
Sucrose is C12H22O11. This means that there's 12 atoms of carbon, 22 atoms of hydrogen, and 11 atoms of oxygen. The total amount of atoms in sucrose is then 45.
The atomic masses are available on all periodic tables. H = 1.0079 C= 12.001 O= 15.999 total mass = (12.001 x 12) + (1.0079 x 11) + (15.999 x 11) = 144.012 + 11.0869 + 175.989 = 331.0879 amu
Sucrose = molecular formula C12H22O11 Therefore 11 Oxygen atoms.
45
If you're asking for the number of atoms, it would be 45. Chemical Formula: C12H22O11
12 atoms of carbon, 22 atoms of hydrogen, and 11 atoms of oxygen. It is sucrose, or table sugar.
Table sugar has the chemical name and formula of sucrose (C12H22O11). For every one mole of sucrose, 12 moles of carbon are contained. In order to calculate moles you take 12 multiplied by Avogadro's number of 6.0221413 x 10^23. That would equal 7.2x10^24 atoms of carbon per molecule of sucrose.
a molecule of fructose and a molecule of glucose
The electronegativity of sucrose is not determined by the sucrose molecule itself, but rather by the individual atoms that make up sucrose. Sucrose is composed of carbon, hydrogen, and oxygen atoms, each with their own electronegativity values. The overall electronegativity of sucrose is a weighted average of the electronegativities of these individual atoms.
Sucralose is a sweetener that integrates chlorine atoms. It is an artificial sweetener that is made by replacing three hydroxyl groups on a sucrose molecule with chlorine atoms.
Sucrose is a polar molecule. It consists of covalent bonds between the atoms, leading to unequal sharing of electrons and creating a slight positive and negative charge on different parts of the molecule.