The weight of one mole of an element is the element's atomic mass.
So Carbon for example has an Atomic Mass of 12. If you had one mole of Carbon you would have 12 grams of Carbon.
volume displaced and the specific weight of the substance
Neither, it is determined by the number of protons in its nucleus (which is also called the atomic number on the periodic table).
Engineering requires calculation of the dish end diameter and circumference for proper fit before crimping. The weight can also be necessary in some applications. To determine the weight, knowing the substance and dimension, going to weight of unit of substance the calculation can be determined.
The weight of a mole depends on the substance you are measuring. The formula is as follows 6.022e23 (Avogadro's number) multiplied by the atomic weight of the element you wish to measure. You can find the atomic weight for any element on the periodic table of elements.
It is the mass.Yes
Periodic table of elements provides us a lot of information about element's intrinsic properties. We can get the atomic weight of an element by looking at the periodic table. Trends about the electronegativity and atomic size can also be computed.
Weight is not entirely determined by your genetics, but it does have a strong influence.
Not completely. The empirical formula of a substance can be determined from its percent composition, but a determination of molecular weight is needed to decide which multiple of the empirical formula represents the molecular formula.
It is determined by the weight not the height
I can't really explain anything here. I don't spend countless hours memorizing this stuff. I simply take a look at the periodic table. So, looking at the periodic table, I know the masses of elements generally increase as I scroll through. It's kind of like looking through a book, namely the page numbers. Looking, i see that iodine (I, atomic number 53) has that atomic mass.
A person's body frame is determined by the weight and density of a person's bone structure.
Weight of the object - weight of fluid it displaces. If the fluid is water and you are using a pure solid, not hollow, substance this is easily found by subtracting the densities of the two and multiply by its volume.