CRHS Academic Chemistry Unit 7 - Chemical Quantities. Notes. Key Dates

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Name Period CRHS Academic Chemistry Unit 7 - Chemical Quantities Notes Key Dates Quiz Date Exam Date Lab Dates Notes, Homework, Exam Reviews and Their KEYS located on CRHS Academic Chemistry Website: https://cincochem.pbworks.com

Page 2 of 16 7.1 INTRODUCTION TO THE MOLE Unit 7 Notes What is a MOLE? A mole is of a pure substance. This is called number. We use Avogadro s number and mole the same way we use 12 and dozen. Mole is abbreviated as (this does mean ). What is Molar Mass? How do I calculate it? Molar mass is the of 1 of a compound. Its units are. To calculate molar mass of an element or compound: 1) Make a of the elements present and how many atoms of each there are. 2) Use the periodic table to determine the of each element (round to the hundredths). 3) across the chart. 4) up the totals. Example: Na 2SO 4 Na: 2 x 22.99 = 45.98 S: 1 x 32.07 = 32.07 O: 4 x 16 = 64 Practice: 1) Calculate the molar mass of zinc.

2) What is the molar mass of barium nitrate? Unit 7 Notes Page 3 of 16 3) You decide to electroplate your old rims on your 1977 Cadillac Eldorado with a bright silver finish and find a nickel color to be your favorite. The substance used for nickel electroplating is called nickel (II) phosphate. Determine the molar mass of nickel (II) phosphate.

Page 4 of 16 Unit 7 Notes 7.2 MOLE TO MASS AND MASS TO MOLE CONVERSIONS How do I convert from MOLES to mass? 1) Calculate the of the compound. 2) Use the conversion factor created in step 1 in dimensional analysis to find the number of moles. Example: What is the mass of 2.50 mol of NaCl? MOLES to Mass Molar mass (g) 1 Mol 2.5 mol NaCl 55.85 g NaCl 1 mol NaCl = 2.5 x 58.44 1 = 146.1 g NaCl Practice: 1) What is the mass of 2.32 mol of dicarbon hexahydride? 2) You need 1.70 moles of calcium hydroxide to make your magic potion for the traveling carnival in which you portray a magician. You have 86 grams of the powder in your apothecary s chest. Do you have enough to make your potion? How do I convert from mass to MOLES? 1) Calculate the of the compound. 2) Use the conversion factor created in step 1 in dimensional analysis to find the number of moles. Mass to MOLES 1 mole Molar mass (g)

Example: Unit 7 Notes Page 5 of 16 How many moles are in 74 g of potassium sulfide? 74 g K 2S 1 mol K 2S 110.26 g K 2S = 74 110.26 = 0.67 mol K2S Practice: 1) How many moles are in 39 g of barium hydroxide? 2) Heading into your last lap around campus, Coach Beasley yells, You can have 1 mole of water when you finish this lap! However, you finish and chug 100 g of water. How many moles are in 100 g of water?

Page 6 of 16 7.3 REPRESENTATIVE PARTICLES Unit 7 Notes What are representative particles? A representative particle is the unit of a pure substance that still holds the of that substance! Example Symbol Pure Substance Representative Particle potassium magnesium chloride diphosphorous pentoxide fluorine* * *Diatomic Molecules are that only exist in nature in their pure form bonded to another identical atom. For example, fluorine ONLY exists by itself in nature bonded to another atom of fluorine. It is still called fluorine, but is written F 2. The Diatomic Molecules are: You can use the mnemonic Dr. How do I convert from MOLES to particles? 1) Remember : 1 mole of anything = 6.02 x 10 23 2) Use the above in dimensional analysis to calculate the number of representative particles. 3) End with the correct for the compound type. MOLES to Particles 6.02 x 10 23 (formula units, molecules, atoms) 1 mole

Example: Unit 7 Notes Page 7 of 16 How many representative particles are in 0.72 mol of Zn? 0.72 mol Zn 6.02 x 10 23 ATOMS Zn 1 mol Zn = 0.72 x 6.02 x 10 23 = 4.32 x 10 23 atoms Zn Practice: 1) How many representative particles are in 7.5 mol of sulfur dioxide? What are the representative particles for SO 2 called? 2) How many representative particles are in 0.4 mol of potassium chloride? What are the representative particles called? How do I convert from particles to MOLES? 1) Use number in dimensional analysis to calculate the number of moles present Particles to MOLES 1 mole 6.02 x 10 23 (formula units, molecules, atoms) Example: How many moles are in 8.34 x 10 24 molecules of bromine? 8.34 x 10 24 molecules Br 2 1 moles Br 2 6.02 x 10 23 molecules Br 2 = 8.34 x 1024 6.02 x 10 23 = 13.85 moles Br2

Page 8 of 16 Unit 7 Notes Practice: 1) How many moles are in 4.81 x 10 24 atoms of rubidium? 2) To fill a 4 liter tank with nitrogen dioxide you need 16 moles of the gas. If you have 3.4 x 10 26 molecules of nitrogen dioxide, will the tank fill?

7.4 MIXED MOLE CONVERSIONS Unit 7 Notes Page 9 of 16 Mixed mole questions ask you to convert between and. To do these conversions you MUST convert to before converting from particles to mass or mass to particles. How do I solve a mixed mole problem? 1) Use dimensional analysis and start with the. 2) Find the of substances when necessary. Example How many formula units in 20.0 g of CaCl 2 Practice: 1) How many atoms of sodium are you eating when you consume 1.09 g of sodium (the amount in a sausage McGriddle)? 2) How many grams in 4.29 x 10 39 formula units of sodium sulfate? 3) You just inhaled 57 grams of the toxic gas carbon tetrachloride. A lethal dose is 2.26 x 10 24 molecules of the gas. Are you going to die from this dose?

Page 10 of 16 7.5 PERCENT COMPOSITION Unit 7 Notes Percent composition is the, by, of each element in a compound. % composition of an element = total mass of molar mass of compound x 100% 1) Calculate the of the compound. Example: CO 2 (C) 1 x 12.011 = 12.011 (O) 2 x 15.999 = 31.998 + 44.009 g/mol 2) Look at the calculations above. For each element, we have already calculated the in the compound. (C) 1 x 12.011 = 12.011 g/mol mass of C in CO 2 (O) 2 x 15.999 = 31.998 g/mol mass of O in CO 2 3) Using the formula, solve for % composition for each element. 12.011 x 100% = 27.29% C 31.998 x 100% = 72.71% O 44.009 44.009 Practice: 1) Find the % composition of each element in ammonium chloride. 2) What is the % composition of each element in mercury (IV) oxide?

7.6 EMPIRICAL FORMULA Unit 7 Notes Page 11 of 16 Empirical Formula The empirical formula of a compound is the formula with the whole number of elements. How do I calculate it? You will be given either: a. The actual of the elements in the compound or b. The compositions. The of elements in a compound is preserved in a percentage, so we can just change the from to! 1) Use of each element to determine the number of of each element. 2) Divide all by the mole number. 3) If whole numbers, apply these numbers as to their corresponding elements in the compound. 4) IF NOT WHOLE NUMBERS, Convert to whole number ratio. To do this: multiply results by a common number. Apply these numbers as subscripts. For example: Phosphorus = 1 x 2 = 2 Nitrogen = 1 x 3 = 3 Oxygen = 2.5 x 2 = 5 Chlorine = 1.33 x 3 = 4 P 1O 2.5 P 2O 5 N 3Cl 4 No Yes Example: Determine the empirical formula for a compound that contains 40.05 g sulfur and 59.95 g oxygen. 40.05 gs 1 mole S 32.066 gs = 1.25 mol S 1.25 1.25 = 1 S 59.95gO 1 mole O 15.999 go = 3.75 mol O 3.75 1.25 = 3 O SO 3

Page 12 of 16 Unit 7 Notes Practice: 1) What is the empirical formula of a compound that contains 5.90 g hydrogen and 94.1 g oxygen? 2) Determine the empirical formula for a compound that contains 48.64% carbon, 8.16% hydrogen, and 43.20% oxygen. 3) While an undergraduate assistant in food chemistry, you discover a new non-nutritive sugar substitute that tastes better than maple syrup. After evaluating the substance s properties you find the substance contains 12.12% carbon, 71.72% chlorine, and 16.16% oxygen? From your learning, you know that a substance with more chlorine than carbon tends to cause cancer. Is your sugar substitute safe to eat?

7.7 Molecular Formula Unit 7 Notes Page 13 of 16 The molecular formula is the of atoms of each element in a compound. In order to find the molecular formula you need to compare the of the compound with the mass of the formula. How do I find the molecular formula? 1) Determine the of the formula. 2) Find the scale. Scale = mass of empirical formula Round the Scale to the nearest whole number. 3) empirical formula. # atoms of each element by the scale from. Example: Find the molecular formula for a compound with a molar mass of 78.12 g/mol and an empirical formula of CH. 1) Molar Mass of CH = 1(C) x 12.011 + 1(H) x 1.008 = 13.019 g/mol Scale = 78.12 13.019 = ~ 6 6 x (CH) = C 6H 6 2) Practice: 1) Find the molecular formula for a compound with 43.64% phosphorus and 56.36% oxygen and a molar mass of 283.88 g/mol. 2) As a medical bioengineer, you encounter a compound capable of curing seasonal allergies. You know one mole has a mass of 90.04 grams. You have used mass spectrometry to surmise the substance has an empirical formula of CHO 2. Find the molecular formula of the compound.

Page 14 of 16 Unit 7 Notes 3) Find the molecular formula for a compound with 46.68% nitrogen and 53.32% oxygen and a molar mass of 60.01 g/mol.

Common Polyatomic Ions List Unit 7 Notes Page 15 of 16 20 Name Common Polyatomic Ions Ion Name Ion acetate C 2H 3O 2 or CH 3COO hypochlorite ClO ammonium + NH 4 nitrate NO 3 carbonate 2 CO 3 nitrite NO 2 chlorate ClO 3 perchlorate ClO 4 chlorite ClO 2 permanganate MnO 4 chromate 2 CrO 4 phosphate 3 PO 4 cyanide CN phosphite 3 PO 3 dichromate Cr 2O 2 7 silicate 2 SiO 3 hydrogen carbonate HCO 3 sulfate 2 SO 4 hydroxide OH sulfite 2 SO 3 How to key scientific notation into a TI calculator: Type in 6.02 x 10 23 : Should display: How to key molar mass into a TI calculator in ONE STEP!: Example: Na 2SO 4

Page 16 of 16 Unit 7 Notes

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