Let's calculate this:
Water density is: 1g/ml
1ml * 1g/ml = 1g of water in 1 ml.
Next,
Water molecular weight, about: 18g/mol
1g * 1mol/18g = 1/18 moles = about 0.056 moles in 1ml (=1g) of water.
This can be done in one step as:
1ml * 1g/1ml *1mol/18g = 1/18 moles of water
Cheers,
Me
About 18.016 ml or about a tablespoon. 6.022 x 1023
The density of water is 1g/ml, so if you do dimensional analysis, you can find that in 1 L of water, there is 55.56 mol, which means the molarity of water is 55.56.
Facts about water
grams per mole = 18g/mole
density at rtp = 1g/ml
(18g/mole)/1g/ml = 18 ml/mole
1 mole H2O * 18.0 (g/mol H2O) = 18.0 g H2O
( Molar mass H2O = (2*1.0 + 1*16.0) g/mol)
If it is one mole of water: 6.02 x 1023, since one mole is the number of particles.
228 molecules of ATP
Practically all food contains some water, because the source of the food (plants, animals) was water-based organic life. It is possible to remove much of this water, often to preserve the food.
No they give mole ratios. A mole is much like a dozen, a dozen is 12 while a mole is 6.02*10^23. This means that 1 mole of a substance represents 6.02*10^23 molecules of that substance.
How much water?? ml or L
The group of molecules that are rich in carbon and hydrogen is called hydrocarbons.Organic molecules are rich in carbons.Inorganic molecules do not have much carbons in them. For example water.
i believe its 28
9033212250000000000000000 molecules or, in scientific notation, 9.03321225 × 10^24 molecules. This is found by multiplying the number of moles by the number of molecules in a mole, which is avagadro's number, 6.0221415 × 10^23. The calculation is: 15 × (6.0221415 × 10^23)
2H2 + O2 ==> 2H2O1.95x10^24 H2 molecules x 2 molecules H2O/2 molecules H2 x 1 mole H2O/6.02x10^23 molecules = 3.24 moles H2O x 18 g/mole = 58.3 g H2O
1 mol S2 * (2 (32.07) g S2/mol S2) = 64.14 g S2
2H2 + O2 ---> 2H2O 3.5 mole of hydrogen will produce 3.5 mole of water.
228 molecules of ATP
It depends on how much solution you have!"1 molar solution" means that 1 litre of the solution contains 1 mole of solute (in this case, Na+ and Cl- ions). Therefore, 1 litre of 1M NaCl will contain 1 mole of sodium chloride. 1 mole is avagadro's number (6.02x1023) of a substance. If you have two litres of solution, obviously, you will have twice this number, for example.Note, though, that there are NO molecules of sodium chloride - sodium chloride is not a molecular substance.
Practically all food contains some water, because the source of the food (plants, animals) was water-based organic life. It is possible to remove much of this water, often to preserve the food.
No they give mole ratios. A mole is much like a dozen, a dozen is 12 while a mole is 6.02*10^23. This means that 1 mole of a substance represents 6.02*10^23 molecules of that substance.
There is only so much space between water molecules for sugar molecules to fit.
The molecules in warm water are moving quicker, meaning that the hydrogen bonds between the molecules are breaking very quickly whereas the molecules in cold water are moving much slower.
Mole = Mass/RMM Ar for Na=23 & Ar for Cl = 35.5 Therefore 1mole = Mass / (35.5+23) 1 mole of NaCl is 58.5g Mole = Mass/RMM Ar for Na=23 & Ar for Cl = 35.5 Therefore 1mole = Mass / (35.5+23) 1 mole of NaCl is 58.5g But that can be misleading. NaCl does not form into molecules (and salts in general do not). If you dissolve 58.5g of NaCl into water, it will dissociate into ions, and there will be 2 moles of particles in solution: 1 mole of Na+ ions, and 1 mole of Cl- ions. Knowing that will be important for calculating various things, such as how many degrees the freezing point will be depressed, when you dissolve so much salt in so much water.