There are 33 atoms in that molecular formula.
C13H18O2 (the molecular formula for ibuprofen) has 13 carbon atoms, 18 hydrogen atoms, and 2 oxygen atoms.
In IBuProFen (C13H18O2, iso-butyl-propanoic-phenolic acid) is NO Iodine (I atoms)
The formula of Ibuprofen is: C13H18O2 The molar mass is: 13x 12.01= 156.13 g/mol of C 18x1.008 = 18.144 g/mol of H 2x16.00 = 32.0 g/mol of O Total: 206 g/mol of ibuprofen
There are 20 atoms and there are 6 Carbon atoms, 8 Hydrogen atoms, 6 Oxygen atoms.
A molecule is a combination of atoms. To know how many atoms are in one molecule, you have to find out what atoms are in the molecule.
there are fifteen atoms
In IBuProFen (C13H18O2, iso-butyl-propanoic-phenolic acid) is NO Iodine (I atoms)
C13H18O2 = ibuprofen 7.4 X 1025 carbon atoms (1 mole C atoms/6.022 X 1023)(1 mole ibuprofen/13 mole carbon) = 9.5 moles ibuprofen ------------------------------
C13h18o2
It's C13H18O2
Ibuprofen is officially called C13H18O2.
C13H18O2 500 mg ibuprofen (1 gram/1000 mg)(1 mole ibuprofen/206.274 grams)(13 mole C/1 mole ibuprofen)(6.022 X 10^23/1 mole C) = 1.90 X 10^22 atoms of carbon in that mass ibuprofen
The formula of Ibuprofen is: C13H18O2 The molar mass is: 13x 12.01= 156.13 g/mol of C 18x1.008 = 18.144 g/mol of H 2x16.00 = 32.0 g/mol of O Total: 206 g/mol of ibuprofen
The chemical formula for ibuprofen is C13H18O2.
Ibuprofen has formula C13H18O2. Therefore, it has no sodium.
it is polar since it has carboxylic acid (propanoic acid) function
carbon hydrogen and oxygen
Given C13H18O2 (which is ibuprofen, by the way) the molar mass is 206g/mol. (This figure is derived from adding the atomic masses of all the constituent atoms of that compound.) The percent composition by mass of the hydrogen in ibuprofen is 18/206=0.087, which is 8.7%. The given mass is 44g, so 8.7% of 44 = 3.83g hydrogen.