The total volume of the room is 1997.5 cubic feet, which equals 56.56 cubic meters. There are then 2.715 milligrams of CO present.
It depends on your heeating system and the aeration; in the summer a mean value of the concentation may be 0,0001 %. Expressed in mass, approx. 8o mg.
8.20g of carbon monoxide, how many grams of methanol will be produced?
moles = weight in grams / molecular weight = 56 / 28 = 2 moles
To find the mass of carbon monoxide needed, we need to use the stoichiometric ratio between iron and carbon monoxide. From the balanced equation, we can see that 3 moles of carbon monoxide produce 2 moles of iron. First, calculate the molar mass of iron (Fe), which is 55.85 g/mol. Next, use the molar ratio between iron and carbon monoxide (2:3) to find the moles of carbon monoxide required. Finally, convert the moles of carbon monoxide to grams using its molar mass (28.01 g/mol).
Carbon monoxide is created by incomplete combustion by lack of oxygen:2C2H5OH + 5O2 --> 2CO + 2CO2 + 6H2Oin stead of2C2H5OH + 6O2 --> .. + 4CO2 + 6H2Owhich is the same as, correctly written (by dividing by 2): C2H5OH + 3O2 --> 2CO2 + 3H2O
0.5 carat carbon (0.2 grams/1 carat)(1 mole C/12.01 grams)(6.022 X 1023/1 mole C) = 5.0 X 1021 atoms of carbon ===================
When the amount of oxygen is limited, carbon and oxygen react to form carbon monoxide. How many grams of CO can be formed from 35 grams of oxygen?
61,27 carbon monoxide are formed.
8.20g of carbon monoxide, how many grams of methanol will be produced?
2,55 moles of the compound CO have 71,4 grams.
3.69 grams CO (1mol CO/28.01g CO )(6.022 X 10^23/1mol CO ) = 7.93 X 10^22 molecules
moles = weight in grams / molecular weight = 56 / 28 = 2 moles
About 23.2 grams of Sulfur.
3,5 g of CO is equivalent to 2,8 L.
27.2 g
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.
To find the mass of carbon monoxide needed, we need to use the stoichiometric ratio between iron and carbon monoxide. From the balanced equation, we can see that 3 moles of carbon monoxide produce 2 moles of iron. First, calculate the molar mass of iron (Fe), which is 55.85 g/mol. Next, use the molar ratio between iron and carbon monoxide (2:3) to find the moles of carbon monoxide required. Finally, convert the moles of carbon monoxide to grams using its molar mass (28.01 g/mol).
a mole is the number of atoms present in twelve grams of carbon 12, the most common isotope of carbon.