The number of grams of Aluminum in one mole of Aluminum is the number under the element's symbol, on the Periodic Table of the elements, which is 26.981. With compounds, water, for example, is an oxygen and two hydrogens. So you would add 15.999 to 2(1.0079). You multiply the hydrogen's number by two because there's two of them.
Ok, this question is not complete. you would need to have a mass of aluminum to find the number of moles. Let me give you an example using 189 grams of aluminum:
How many moles does 189 grams of aluminum have?
the formula mass of aluminum is 27 so
27 grams of aluminum is the mass of 1 mole
189 grams of aluminum is the mass of (1/27 x 189)=7 moles
The element aluminum does not have moles; instead it has a gram Atomic Mass, specifically 26.9815. Therefore, 250 grams contains 250/26.9815 or 9.27 gram atomic masses, to the justified number of significant digits.
i believe it is 0.04615 or 4.615 x 10^(-2)... get a second opinion though
It depends on the aluminum's mass............. you should be more specific next time....
34,2 grams of aluminium is equal to 1,267 moles.
The molar mass of aluminium is 26,981 538 5(7) g.
1 g of aluminium is equivalent to 0,037 moles.
250 / 26.98 = 9.27
27g
342 grams of Lactose in 1 litre water or 34.2 grams in 100 mls.
About 0.754 pounds.
it has 342 reigons.
1 acre = 43,560 square feet180 x 342 = 61,560 square ft = (61,560 / 43,560) = 1.4132 acres (rounded)
342 g of sugar = 1 mole of sugar 1000g of sugar = 1000/342 is approx=3 moles of sugar=3*6.022*10^23(Avogadro number)molecules 1 sugar molecule contains 2 glucose molecule 3*6.022*10^23 molecules contain approx 2*3*6.022*1023 glucose molecule due to pasture's effect yeast can undergo both aerobic as well as anaerobic respiration in aerobic respiration in yeast 1 molecule of glucose gives 6 molecules of CO2 gas then the required no. of CO2 molecules will be 6*2*3*6.022*1023 no of moles= 36 moles= (36*44)g=1584g of CO2 in anaerobic respiration 1 molecule of glucose gives 2 molecules of CO2 then the required no. of CO2 molecules will be 2*2*3*6.022*1023 no of moles=12 moles=(12*44)g=528g of CO2
It depends on how many grams of sugar are in the specific soda. You would take the number of grams stated on the can and divide by the molar mass of sugar (about 342 grams). That is the number of moles of sugar in can of soda. Grams of sugar in can/342
342 grams = 12.06 ounces.
For this you need the atomic (molecular) mass of NaCl. Take the number of grams and divide it by the atomic mass. Multiply by one mole for units to cancel. NaCl=58.5 grams20.0 grams NaCl / (58.5 grams) =.342 moles NaCl
a bar has exactly 342 grams
0,4 moles calcium have 2,408 856 342 8.1023 atoms.
That is 72.38 teaspoons.
For this you need the atomic (molecular) mass of C12H22O11. Take the number of moles and multiply it by the atomic mass. Divide by one mole for units to cancel. C12H22O11= 342 grams.105 moles C12H22O11 × (342 grams)= 35.9 grams C12H22O11
the percentage composition of aluminum sulfate is 342
342
There are 1000 milligrams in one gram. Therefore, 342000 milligrams is equal to 342000/1000 = 342 grams.
The grams of Carbon present in C12H22O11 depends on how many grams of C12H22O11 you have. For every 342 grams of C12H22O11 that you have, you will have 12 g of carbon.
342