Tricky bit that, but it's part of the definition of the molar mass. Basically, if you were to collect 6.022×1023 atoms of a substance of a particular Atomic Mass (lets say 6 for arguments sake), then the resultant pile of atoms would have a mass of 6 grams.
6.022e23
The atomic mass is grams/mole So when you have e.g. 12 grams of carbon which has atomic mass = 12, you have one mole. ( Avogadro's number is one mole: 6.02×10²³ )
The atomic mass is 74.9216 grams.
1 oz = 28.34 grams 1 gram = 0.03 oz
By definition, one mole would be the same as the atomic mass. You take the number of moles and multiply it by the atomic mass. So if you have just 1 mole, the number of grams will be the atomic mass. Nitrogen's atomic mass is 14.007 grams.
By definition, one mole would be the same as the atomic mass. You take the number of moles and multiply it by the atomic mass. So if you have just 1 mole, the number of grams will be the atomic mass. Calcium's atomic mass is 40.08 grams.
The mole is the atomic weight expressed in grams.
The atomic mass is grams/mole So when you have e.g. 12 grams of carbon which has atomic mass = 12, you have one mole. ( Avogadro's number is one mole: 6.02×10²³ )
There is no relationship between grams and calories
Multiplication by what is called a conversion factor. A moles x (bbb grams / 1 mole) in which bbb is the molar mass of the substance.
There are 1,000 grams in a kilogram.-(hence the prefix "kilo" )
Mass is the amount of a material, such as 24 grams of Carbon-12. Moles are the amount of a material as well, but they are normalized to the atomic mass of that material. In the example above, since Carbon-12 has an atomic mass of 12, 24 grams of it would be 2 moles.
positive linear relationship
Molar mass is the mass of particles in one mole of a substance. Molar mass is equal to atomic/ molecular/ formula mass in amu. Formula mass is in atomic mass unit while molar mass is in grams .
yeah, cm cubed does not equal gram
The atomic mass is 74.9216 grams.
they are both metric units that have to do with weight.
By definition, one mole would be the same as the atomic mass. You take the number of moles and multiply it by the atomic mass. So if you have just 1 mole, the number of grams will be the atomic mass. Selenium's atomic mass is 78.96 grams.