One molecule has four atoms.Divide 48 by by 16 then multiply by four
Methanol, CH4O, has a molar mass of 32g (12g+4.0g+16g)* *note this is only rounded to two sig figs, since the mass of elements are usually rounded to the tenths place. Next, simply use dimensional analysis: 1ml/22.4L X 32g. you should get the right answer by doing the steps shown above.
The mass of a paper clip is simply measured in grams.
5 grams of water in a teaspoon . So your answer is about 9.3 teaspoons.
There are 46g of carbs in one 12 oz can of Mountain Dew.
5.3kg add 46g = 51.3
1lb is about 453.5gr, 46g is about 0.1014lb
To find the number of moles in 46g of sodium, you need to divide the mass of the sample by the molar mass of sodium (22.99 g/mol). The calculation is 46g / 22.99 g/mol = approximately 2 moles of sodium.
46g in a 14 oz bottle of Coca-Cola.
To find the amount of oxygen used, we need to consider the difference in mass between sodium and sodium oxide. The mass increase is 16g (62g - 46g) which corresponds to the amount of oxygen used from the air. Therefore, 16g of oxygen from the air were used.
One golf ball weighs roughly 46 grams, so 46g times the number of Golf balls.
depends on the typ of burger it is? lean, thick extra len etc... but generally anywhere from 16-26gs ... fat contain is way higher 27g -46g.
To find the number of moles in 92g of ethanol, we first need to know the molar mass of ethanol, which is approximately 46g/mol. Then, we divide the given mass by the molar mass to get the number of moles. So, 92g of ethanol is equal to 2 moles.
Assuming you mean 138.08 grams, you set up a direct proportion between the molar mass of NO2 and your given mass. NO2 comes in at 46g/mol (14+16+16), and your proportion should be 46/1=138.08/x. Solve for x to get approx. 3 moles.
One mole of Na contains 6.022 x 10^23 atoms of sodium. To find the number of moles in 46g of sodium, you first calculate the molar mass of Na (22.99 g/mol) and then divide 46g by the molar mass to find that it contains approximately 2 moles of sodium.