Quantitative Chemistry Flashcards

1
Q

grams to moles or moles to grams

- How many moles of blank are contained within blank grams of blank?

A

use molar mass

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2
Q

particles to grams

- How many blank atoms are contained in blank grams of blank

A
  • particles= atoms, molecules, FU
  • use molar mass
  • use avogadros number
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3
Q

predicting mass of products

  • Nitrogen gas will react with hydrogen gas to produce ammonia. How many moles of hydrogen gas are required to produce .86 moles of NH3?
  • N2O5 reacts with water to produce nitric acid. If 1.93 moles of N2O5 react with excess water, how many moles of nitric acid can be produced?
A
  • use molar ratio
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4
Q

how to find limiting reactant

A
  • take the given values and do one for each reactant
  • convert to g of product
  • whichever produces less is the limiting reactant
  • that is how many grams of the product are produced
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5
Q

theoretical yield

A
  • grams of limiting reactant

- max that can be produced

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6
Q

How to find percent yield

A
  • actual yield/theoretical yield X 100

- how much was produced/ max that can be produced (smallest number) X100

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7
Q

mass percent of an element

- Find mass percent of iron in FeTiO3

A

(# of atoms of element)(elements atomic mass) / (formula weight of compound) X 100

molar mass of each element including # of atoms/molar mass of compound X 100

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8
Q

Mass percent of a component

- A tablet contains .025 mg of vitamin D, entire tablet has a mass of .115g. calculate mass % of vitamin D

A

(mass of component in question)/(total mass of substance) X 100

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9
Q

Mass percent
- a sample of potassium chlorate (KClO3) is known to contain some impurities. It is found that K makes up 9.50% of the entire mass of the sample. All of the K is comes from the KClO3 compound. Find the mass percent of KClO3 in the sample.

A
  • molar mass of compound/molar mass of element=unknown %compound/given percent element
  • Use proportions to solve
  • leave percent as is, don’t change to decimal
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10
Q

prove mass is conserved in chemical reactions

A

take calculations and plug them into equation, should be equal on both sides

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11
Q

confirm the law of definite proportions

A
  • number you calculated of element/given value of compound X100 should equal molar mass of element/molar mass of compound X 100
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12
Q

how to find the empirical formula for the compound

- a compound contained 68.1% carbon, 13.7% hydrogen, and 18.2% oxygen by mass

A
  • assume 100 g sample
  • use molar mass to convert grams to moles
  • divide all answers by smallest number to get subscripts for the empirical formula
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13
Q

How to find molecular formal

A
  • given molar mass of compound/molar mass of empirical formula
  • This number is what you multiply the subscripts by
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14
Q

a 1.0857 gram sample of a compound containing only carbon, hydrogen, and oxygen was burned in excess oxygen gas. 3.190g of carbon dioxide and 0.9360g of water were produced. Find the empirical formula of the compound.

A
  • convert g each element to corresponding gram of reactant
  • convert each of those numbers to moles
  • divide by smallest to find empirical formula as usual
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