The molar mass of Hydrogen Chloride (HCl) is 36.46 g/mol It is made up of equal parts of Hydrogen (molar mass 1.007) and Chlorine (molar mass 35.453)
the molecular weight of HCL is 36.5(multiply the no. of atoms of the element with the atomic weight & add it with the other element)i.e;HCL=(1*1)+(35.5*1)=36.5
35.453 ± 0.002 u
36.46 g mol-1
36.47g/mol
Since the molecular weight of HCl is 36.46g/mole, 1 mole of HCl contains 36.46g. 1 liter of a 0.5M solution will have 18.23g of HCl. 400 ml will have 7.292g of HCl.
A Mole is the molecular weight expressed in grams. So for example water H2O: the molecular weight of oxygen is 16 and hydrogen is 1 so the total molecular weight of water is 18 (16 for one atom of oxygen plus 2x1 for the two atoms of hydrogen). For HCl, the atomic weight of Cl is 35 and H is 1 so the total molecular weight is 36. So 1 Mole of HCl is 36 grams. If you have 2 moles, it would be 72 grams.
HCIO4 is an ionic compound.
Yes
36.47g/mol
The molecular weight of HCl is 36.5 g/mol.
Yes, because its one mole reacts with one mole of HCl
Since the molecular weight of HCl is 36.46g/mole, 1 mole of HCl contains 36.46g. 1 liter of a 0.5M solution will have 18.23g of HCl. 400 ml will have 7.292g of HCl.
A Mole is the molecular weight expressed in grams. So for example water H2O: the molecular weight of oxygen is 16 and hydrogen is 1 so the total molecular weight of water is 18 (16 for one atom of oxygen plus 2x1 for the two atoms of hydrogen). For HCl, the atomic weight of Cl is 35 and H is 1 so the total molecular weight is 36. So 1 Mole of HCl is 36 grams. If you have 2 moles, it would be 72 grams.
HCIO4 is an ionic compound.
Yes
The molecular formula for Oxycontin is C18H21NO4•HCl .
Well HCl is 36.5 molecular weight so if you have 65 g you would have 65/36.5 moles = 1.78 moles to 2 decimal places
We aren't here to do your homework. Also, Organic Chemistry means the stuff has carbon in it, and HCl... doesn't. Google it.
To do this, you need to know the molecular weight of the element you're dealing with, by adding up the atomic weights of the elements involved (found on any periodic table). The molecular weight is the mass in grams of the compound in one mole - this will provide you with a conversion factor. So take the measurement in grams and divide it by the molecular weight to convert to moles. Really what you're doing is multiplying the number by 1 mole, and dividing it by the equivalent of one mole, the molecular weight. That's the thought process behind unit analysis and how you get your "units to cancel". In this case, the answer is about 0.137 moles HCl.
Molarity =(% by weight x density x 1000 mL/litre)/(Molecular weight x 100%) %by weight ={(Molarity x Molecular Weight)/(density x 1000 mL/litre)} x 100% Molecular weight - grams/mol (36.461 g/mol for HCl) Molarity - mol/litre Density - g/millilitre (Density may be listed as specific gravity) For the given conditions Conc.HCl 37.0%, sp.gr. 1.19 Molarity = (37.0 x 1.19 x 1000)/(36.461 x 100) Molarity = 12.07592 M Available = 12.07592 M HCl Required = 0.300 M HCl: V1 x C1 = V2 x C2 (1000[mL] x 0.300[M]) / (12.07592[M]) = 24.84283[mL] Dilute 24.84mL of 37.0% HCl to one liter to get 0.300M HCl solution.