3.6 X 2 X Avogadro's Number = 4.3 X 1024, to the justified number of significant digits.
The questions asks how many moles of carbon atoms.Molar mass is defined as the mass of one mole of a substance or in this case 6.022x1023 atoms of carbon. So the molar mass for carbon is 12.0 g/mol. Therefore the number of moles of carbon atoms is just 36/12.0 = 3.0 moles of carbon.How many atoms are in 36 grams of Carbon?[36 (gC) /12.0 (gC/molC)] * 6.02*10+23 (atoms C/molC) = 1.8*10+24 atoms in 36 g Carbon
For this problem, the atomic mass is required. Take the mass in grams and divide it by the atomic mass. Then multiply it by Avogadro's constant, 6.02 × 1023.10.6 grams Mg / (24.3 grams) × (6.02 × 1023 atoms) = 2.63 × 1023 atoms
6PCl5 contains 6 phosphorus atoms and 30 chlorine atoms, totaling 36 atoms in total.
1 mole of any substance contains 6.02x1023 representative particles. That is called Avogadro's number, and it's one of the most important constants in science. So, 3 moles of carbon would be 3 times that, which would be 18.06x1023, which simplifies to 1.806x1024 atoms.
Since one mole is equal to 6.022x10^23, there are .36 moles in 2.17x10 representative particles of bromine. A mole is a measure used to make atomic calculations for density.
3 x 12 = 36 moles of Nitrogen atoms N or 18 moles of Nitrogen molecules N2
2 moles C8H18 (18 moles H/1 mole C8H18) = 36 moles of hydrogen =================
1 mole of carbon (or 12 g) has 6 x 1023 atoms. So, 3 moles of carbon (or 36 g) has 18 x 1023 atoms
The questions asks how many moles of carbon atoms.Molar mass is defined as the mass of one mole of a substance or in this case 6.022x1023 atoms of carbon. So the molar mass for carbon is 12.0 g/mol. Therefore the number of moles of carbon atoms is just 36/12.0 = 3.0 moles of carbon.How many atoms are in 36 grams of Carbon?[36 (gC) /12.0 (gC/molC)] * 6.02*10+23 (atoms C/molC) = 1.8*10+24 atoms in 36 g Carbon
12 moles KClO3 (3 moles O/1 mole KClO3) = 36 moles of oxygen.
No. of atoms in NaCI are 3. No. of atoms in 36 NaCI are 36*3=108 But no NACI like compound exist.
To make 36 grams of water (H2O), you would need 2 moles of hydrogen. This is because the molecular formula of water is H2O, meaning each molecule of water contains 2 atoms of hydrogen.
For this problem, the atomic mass is required. Take the mass in grams and divide it by the atomic mass. Then multiply it by Avogadro's constant, 6.02 × 1023.10.6 grams Mg / (24.3 grams) × (6.02 × 1023 atoms) = 2.63 × 1023 atoms
It is3 x (4 x 3) atoms = 36 atoms
6PCl5 contains 6 phosphorus atoms and 30 chlorine atoms, totaling 36 atoms in total.
H molar mass = 1.0 x 2(for two atoms H per molecule) S molar mass = 32.1 x 1(only one atom S per molecule) O molar mass = 16.0 x 4(for four atoms O per molecule) (1.0 x 2) + (32.1 x 1) + (16 x 4) = 98.1 g/mol 36 g x 1 mol/98.1 g = 0.37 mol
The Lewis structure for Xenon Tetrafluoride (XeF4) consists of Xenon (Xe) at the center with four fluorine (F) atoms surrounding it. Xenon has 8 valence electrons and each fluorine contributes 7 valence electrons for a total of 8+4(7) = 36 valence electrons in the structure. Xenon forms single bonds with each of the four fluorine atoms, resulting in a structure with 2 lone pairs on Xenon and 4 bonding pairs.