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[600 mL]*[1 L / 1000 mL]*[0.1 mol/L]*[97.995 g/mol] = [0.06 mol]*[97.995 g/mol] = 5.81 g H3PO4
I love the smell of stoichiometry in the morning! The answer is approximately 300g of N2F4, and here's how you get it:Step 1: Get an equation for this reaction. Your product is obviously N2F4 (dinitrogen tetrafluoride), and one of the two reactants is F2 (diatomic fluorine gas). The other reactant has to be nitrogen, so you set up and balance a synthesis reaction equation:N2 + 2F2 --> N2F4Step 2: Get the number of moles of your reactant by setting up a direct proportion with the atomic mass of fluorine:39g/1mol=225g/x, solve for x to get 5.77 moles of fluorine.Step 3: Work the molar ratio in the reaction equation to see that you need half as many moles of product as you have of fluorine reactant:5.77/2=2.89 moles N2F4Step 4: Set up another direct proportion with the molar mass of product, which is 104g/mol:104/1=x/2.89, solve for x to get 300.5g, so the answer is approx. 300g of N2O4.Some things to remember in this calculation:- don't forget your diatomics- watch your equation balancing- label all numbers with correct units so you can keep track of them
39g/mole
39g that is the can's
Non-diet sodas have lots of carbs. For example, 39g of carbs for one can of Coke.
39 and "g" isn't a number.
39g = 0.09 (0.0859803) pounds.
granigat
39 grams of water is about 0.172 of a cup.
One homemade brownie has about 39g of carbs.
There are 39g of sugar in a can of Coke, which is 13% of your total daily need.
The amount of sugar will depend on the size of the soda. In a 12oz can there is 39g of sugar and 140 calories.
9g + 2 = 39g = 1g = 1/9 = 0.111111111
[600 mL]*[1 L / 1000 mL]*[0.1 mol/L]*[97.995 g/mol] = [0.06 mol]*[97.995 g/mol] = 5.81 g H3PO4