No.
The molecular weight is the sum of the atomic weights of all the atoms contained in the molecule.
we can determine the molecular weight from landsberger experiment for elevation of boiling point by using the formula M2=(KBW2)*1000/T'W1 where M2=molecular mass Kb=ebullioscopic constant or molal boiling point constant W2=mass of solute W1=mass of solvent T'=change in temprature
If two substances have the same equivalent weight, it means the number of equivalents per mole is the same for both substances. Therefore, the molecular weight of these substances would also be the same, as equivalent weight is derived from the molecular weight and valence of the substance.
The melting and boiling points are different. Butane has a melting point of 135.4K and 2-methylpropane [isobutane] has a melting point of 114K. The boiling point of Butane is 272.6K and isobutane @ 261K. It has to do with there structures. J
Water molecules are strongly intermolecularily bonded by (polar) hydrogen bonding.
No proper data can be used to determine a falsehood, and since mass and weight are NOT the same thing there can be no such data.
The molar mass of a compound is the same as its molecular weight, which is 58.44 g/mol.
No, the molecular weight and equivalent weight of aniline are not the same. The molecular weight of aniline (C6H5NH2) is around 93.13 g/mol, while the equivalent weight is calculated based on the number of replaceable hydrogen atoms in the molecule, which for aniline is 46.57 g/equiv.
Technically... not really. It would perhaps be more accurate to use the terms formula mass and molecular mass rather than formula weight and molecular weight. This because in physical terms, weight is a force while mass is a measure of the amount of substance in something.
yes...!
The boiling point of a compound is influenced by its molecular weight and intermolecular forces. AsH3 has a lower boiling point than NH3 because it is a lighter molecule (lower molecular weight) and has weaker hydrogen bonding interactions between its molecules compared to NH3, which has stronger hydrogen bonding.
I'm not exactly positive. But if you know the volume in grams and the mass (giving you density), then you should be able to figure out the molecular weight. The mass is the same as the molar mass, which I would assume is the same as the molecular weight, but I'm not positive.