Joules per moles = Joules per atom x 6.022 x 1023
At 25 0C the specific heat of silica is between 670 and 740 J.K-1.kg-1.
The mole is a unit of quantity of matter, whereas the Joule is a unit of energy. The relation depends on the substance, and what you wish to do with it. If you had a single mole of one substance and a mole of another and they were stoichiometrically combined, then the energy from the reaction could be calculated, and that could be expressed in Joules. On the other hand, you could also use the equation E=mc2 to derive the annihilation energy of one mole of a given substance. It can be stated, therefore, that there is no trivial conversion.
mole
Mwt means molecular weight (the larger number on the atom on the periodic table). It is the weight per mole of atom (or compound), and thus, it's units are gram per mole
40g
There is no relation.
If the Atomic Mass of an atom is x, then the mass of 1 mole of the atoms is x gram.
For Ideal gases, mole fraction=volume fraction
Joules per Kelvin (J/K)
At 25 0C the specific heat of silica is between 670 and 740 J.K-1.kg-1.
An atom is a component of matter; mole is a unit for the amount of substance in SI. Of course a mole of atoms is bigger than a single atom.
The mole is a unit of quantity of matter, whereas the Joule is a unit of energy. The relation depends on the substance, and what you wish to do with it. If you had a single mole of one substance and a mole of another and they were stoichiometrically combined, then the energy from the reaction could be calculated, and that could be expressed in Joules. On the other hand, you could also use the equation E=mc2 to derive the annihilation energy of one mole of a given substance. It can be stated, therefore, that there is no trivial conversion.
mole
One atom of sodium weighs more than one atom of oxygen. Thus, one mole of sodium weighs more than one mole of oxygen.
Because we need to know the exact relation between reactants and products.
mole
The weighted atomic mass of calcium is 40.1 g/mole and helium is 4.0 g/mole