The answer is 0,199 moles.
The number of atoms in one mole is given by Avogadros number. This is: Avogadro's number = 6.0221415 × 1023 atomsTherefore, two moles of a substance contain 1.2044283 x 1024 atoms
12 moles KClO3 (3 moles O/1 mole KClO3) = 36 moles of oxygen.
To determine this we must first know what the molar mass of Carbon is and that equals 12.01g. This mean for every 12.01g of Carbon, we have one mole. Therefore:48gC x (1 mole C/ 12.01g C) = 3.99 molesRounded off, in 48g of Carbon there are about 4 moles.
1 gram carbon (1 mole C/12.01 grams) = 0.08 moles carbon ===============
There are 12 carbon atoms in one molecule of sugar (C12H22O11). Therefore, in 2 moles of sugar, there would be 12 * 2 * 2 = 48 moles of carbon. To convert moles to grams, you would multiply the number of moles by the molar mass of carbon (12 g/mol), so there would be 48 * 12 = 576 grams of carbon in 2 moles of sugar.
3 x 12 = 36 moles of Nitrogen atoms N or 18 moles of Nitrogen molecules N2
The number of atoms in one mole is given by Avogadros number. This is: Avogadro's number = 6.0221415 × 1023 atomsTherefore, two moles of a substance contain 1.2044283 x 1024 atoms
12 g of potassium is equivalent to 0,307 moles.
12 g NF3 equals 0,17 moles.
12 moles
There are 24 moles of Carbon (C) in 2 moles of table sugar (sucrose)
12 moles KClO3 (3 moles O/1 mole KClO3) = 36 moles of oxygen.
These reagents doesn't react.
To determine this we must first know what the molar mass of Carbon is and that equals 12.01g. This mean for every 12.01g of Carbon, we have one mole. Therefore:48gC x (1 mole C/ 12.01g C) = 3.99 molesRounded off, in 48g of Carbon there are about 4 moles.
1.1e+12 i.e. 1,100,000,000,000 bytes Or more exactly 1,099,511,627,776
2 moles of benzene gives 12 moles of hydrogen atoms since benzene is C6H6
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