1.66 × 10^-24 grams per nucleon. So you need to know what element you are interested in, then look at the Atomic Mass number to find out how many nucleons (protons + neutrons) are in the atom, and multiply by 1.66 x 10^-24
10.81g This is found by looking at the atomic weight. The atomic weight refers to the mass of a singe atom in units of AMU (atomic mass units) and it also refers to the mass of one mole of the element in grams.
1/(6.02214 x 1023) = 1.66054*10-24 molesC-atoms= 1 C-atom
117 grams of sodium chloride (NaCl) is equivalent to 117 grams of chlorine gas because each molecule of NaCl contains one sodium atom and one chlorine atom.
The difference between the original weight (175 g) and the recovered solid weight (122 g) is 53 grams. This 53 grams represents the loss in weight during the freeze-drying process.
Look up the molecular weight of carbon dioxide in the periodic table. The formula for carbon dioxide is CO2, which means one atom of carbon and two atoms or oxygen per molecule of carbon dioxide. Carbon has molecular weight of 12. Oxygen molecular weight is 16. Total 12+16+16= 44 11 grams/44 grams/mole=0.25 moles of carbon The grams of water and combustion of 7.5 grams are totally irrelevant. They are only given to possibly confuse you.
It all depends on the atom that is found in grams ( a measure of weight). Now it has been a while since I have study this stuff ( meaning subject matter). The grams are uniform and of one matter ( denoting the type of atom). This atom should have a set weight. For instance gold, a gold atom should have a consistent weight. The next step is to make sure you can convert this weight into grams. for instance a gold atom is 1/20,000 of a gram. the there would be 20,000 atoms of gold in a gram. that is only a made up example. the wt of the gold atom might be measured in a different scale, the challenge is then to convert this weight into grams. I hope this made sense
You can have any weight of sodium you want down to 0.00000000000000000000003847 grams, the approximate weight of one sodium atom
To calculate the weight of a mole of an atom in grams (molar mass), you add up the atomic masses of all the atoms in one mole of the substance. This can be found on the periodic table and is usually given in atomic mass units (amu). The molar mass is expressed in grams per mole.
The molecular weight of carbon is 12.0107 g/mol, or grams per molecule. This is calculated by dividing the total weight of the atom by the weight of all the atomic mass units and multiplying by 100.
28 x 6 = 168 grams
Phenol. C6H5OH 6 carbon atoms = 72.06 grams 6 hydrogen atoms = 6.048 grams 1 oxygen atom = 16.0 grams ===========================add = 94.108 grams per mole ---------------------------------
Not to a chemist, when they are both expressed in grams! For a physicist, "mass" is the preferred term because it is an inherent property of the material, whereas the weight will vary if an atom is in a different gravitational field than that of the Earth. In physics, "weight" is not expressed in simple "grams" but rather in "grams force".
The atomic weight of Bi is given in atomic mass units (amu). To convert to grams, you need to multiply by the molar mass constant (1 amu = 1 g/mol). Therefore, one Bi atom with an atomic weight of 208.9804 is equal to 208.9804 grams.
Weight is often measured in grams. Or any smaller or larger unit of weight. For instance: 1 picogram is 1x10-12 grams 1 nanogram is 1x10-9 grams 1 microgram is 1x10-6 grams 1 milligram is 1x10-3 grams 1 centigram is 1x10-2 grams 1 decigram is 1x10-1 grams 1 decagram is 1x101 grams 1 hectogram is 1x102 grams 1 kilogram is 1x103 grams 1 megagram is 1x106 grams 1 gigagram is 1x109 grams and 1 tetra gram is 1x1012 grams. The atomic weight of an element is the relative atomic mass of an atom of a particular element.
The conventional standard atomic weight of the hydrogen atom is 1,008 amu.
1 atom of carbon refers to a single carbon atom, which is the basic unit of carbon element. 1 gram atom of carbon, in contrast, refers to the molar mass of carbon, which is approximately 12 grams per mole, representing Avogadro's number of carbon atoms. Essentially, 1 gram atom of carbon is equivalent to Avogadro's number of carbon atoms, which is a large number.
No, one atom is not equivalent to one gram. Atoms are incredibly small units of matter, while grams are a unit of mass. The mass of an atom is typically measured in atomic mass units (amu) or grams per mole.