1 mole in 70 g of Cl2
602200000000000000000000 atoms or 6.022 X 10^23
Avogadro's numbers worth. I mole of anything is, 6.022 X 1023 atoms ----------------------------
The amount of energy released when one mole of chloride ions is produced from one mole of chlorine atoms is the electron affinity of chlorine. This is the energy change that occurs when an electron is added to a chlorine atom to form a chloride ion.
Since 1 mole is (6.022×1023 molecules)/(mol), so 9.02 x 1023 molecules would be 1.4978... mol
Yes, because the conversion for moles to grams is the number of moles multiplied by the atomic mass. So if there's only one mole, the number of grams would be the same as the atomic mass of chlorine, 35.45. This is true for all elements; one mole in grams is the same as the atomic mass.
602200000000000000000000 atoms or 6.022 X 10^23
In hydrochloric acid (HCl), there is one mole of chlorine for every mole of hydrochloric acid. Therefore, in 3.4 moles of hydrochloric acid, there are also 3.4 moles of chlorine.
In one mole of aluminum chloride (AlCl₃), there are three moles of chlorine atoms. This is because each formula unit of AlCl₃ contains three chlorine (Cl) atoms. Therefore, in one mole of AlCl₃, there are 3 moles × 6.022 × 10²³ (Avogadro's number) = 1.8066 × 10²⁴ chlorine atoms.
In chicken eggs there are:approx 90 calories in one 70g egg.
Avogadro's numbers worth. I mole of anything is, 6.022 X 1023 atoms ----------------------------
That is 2.469 ounces.
1:1, one mole potassium to one mole chlorine
The amount of energy released when one mole of chloride ions is produced from one mole of chlorine atoms is the electron affinity of chlorine. This is the energy change that occurs when an electron is added to a chlorine atom to form a chloride ion.
Since 1 mole is (6.022×1023 molecules)/(mol), so 9.02 x 1023 molecules would be 1.4978... mol
There are 6.022 x 10^23 atoms of chlorine in 1.00 mol of chlorine gas, as Avogadro's number tells us that 1 mole of any substance contains that many atoms.
To produce 1 mole of chloroform, you need 3 moles of chlorine. So, to produce 1.5 moles of chloroform, you would need 4.5 moles of chlorine. Converting moles to grams by using the molar mass of chlorine (35.5 g/mol) gives you 160.5 grams of chlorine required.
At standard temperature and pressure, chlorine occurs as diatomic molecules. Therefore, the mass of one mole is twice the gram Atomic Mass of a chlorine atom, or 70.906 grams.