3.1 x 6.022 x10^23 =1.86682 x 10^24 of 3 methyl 2 butanol
Carbon dioxide is a covalent compound, it contains no ions.
Yes. The suffix does indeed give the proportions of water molecules and ions in the compound. The water molecules are somtimes coordinated around ions sometimes they are present in the lattice uncordinated to ions.
Chlorine atoms, which are present as chloride ions.
2.30 x 6.023 x 1023 = 13.85 x 1023
Butter is a type of oil made from saturated fat. which is composed of hydrocarbon molecules. A hydrocarbon is a compound that contains carbon-carbon and carbon-hydrogen bonds, which are both covalent bonds.
Carbon dioxide is a covalent compound, it contains no ions.
2,288.1023 molecules
There are 1.28x10^24 molecules of SF4. 2.13 mol * 6.022x10^23 molecules/mol = 1.28x10^24 molecules.
Distilled (pure) water is a compound; it is composed solely of H2O molecules, with no other substances present.
It is the number of particles - atoms or molecules - that are present in 1 mole of the element or compound.
A flask contains 0.410 of liquid bromine, . Determine the number of bromine molecules present in the flask.
Your question is irrelevant. I think that you were trying to find the number of molecules present in half a mole of water. 1 mole of water contains 6.023 * 1023 number of molecules. Hence half mole contains half of that number of molecules which is 3.0115*1023.
A flask contains 0.120mol of liquid bromine, Br2. Determine the number of bromine molecules present in the flask
Stratosphere contains the ozone layer. It is present as a pool of ozone molecules.
depends on what salt it is and the purity of the water. if the water is 100% pure , then it contains only hydrogen and oxygen as molecules and if it is common salt then it contains sodium and chlorine as molecules
Yes. The suffix does indeed give the proportions of water molecules and ions in the compound. The water molecules are somtimes coordinated around ions sometimes they are present in the lattice uncordinated to ions.
The molecule of butan-1- ol (n-butanol), C4H9OH, is bonded with covalent bonds. The C-O bond is polar covalent. Intermolecular forces between butanol molecules are:- dipole-dipole van der walls hydrogen bonds