CH301 REVIEW: CHEMICAL FORMULAS , COMPOSITION STOICHIOMETRY Summary. Much of high school chemistry was devoted to introducing the concept of Dalton’s ATOMIC THEORY which provides a foundation for a more quantitative description of matter. By combining the idea of the atom with the LAW OF MULTIPLE PROPORTIONS, the concept of the MOLECULE was developed. Chemical formulas and the associated names for small molecules and IONS were introduced. From the idea that the individual atom representing each element has its own unique mass, the concept of ATOMIC WEIGHT was developed. Then, in order to operate with experimentally-manageable amounts of matter, the MOLE was introduced, and the fun with calculations began. The simple numerical relationship between atoms in molecules allows a collection of calculations called COMPOSITIONAL STOICHIOMETRY problems to be performed. Most of this chapter is devoted to reviewing every kind of problem in which mass, numbers of atoms, moles, atomic and molecular formula, elemental formula and percent composition are related to one another. The good news is that there is a common approach to solving all stoichiometry problems: the use of a UNIT FACTOR. Thus, in the same way that you have learned to convert inches into miles, by making the units in UNIT FACTORS cancel, you can perform all the conversions in compositional stoichiometry by making units in unit factors cancel. You will start with some known quantity like: atoms of A and be asked to convert it into grams of molecule AB Now as you work problems like this you will find that there are patterns that you will use over and over in putting together unit factors. The last half of the chapter is spent looking at almost every permutation of unit factors. We will look at a collection of examples, and then try to come up with a general procedure for working the problems. One word of caution. You must learn to do COMPOSITIONAL STOICHIOMETRY problems in this chapter effortlessly because the next review material considers REACTION STOICHIOMETRY which assumes you can do COMPOSITIONAL STOICHIOMETRY blindfolded.Atomic Theory Early scientists had figured out that a very complex world could be reduced to a collection of ELEMENTAL materials. John Dalton came along in the early 1800s and proposed that these elemental materials were made up of very small, indivisible particles he called ATOMS. Dalton was to provide the framework for a theory, which although not perfect, launched the modern age of chemistry and physics. Here are some ideas of DALTON’S ATOMIC THEORY: 1. An element is composed of small indivisible particles called ATOMS. 2. All atoms of a given element have identical properties which are unique from other elements. 3. Atoms cannot be created, destroyed or converted into other elements. 4. MOLECULES are formed when atoms of different elements combine in simple whole number ratios. 5. The relative number and type of atoms is constant for a given MOLECULE. Flaws in Dalton’s Theory Note some of the flaws in this theory. Obviously in the nuclear age, atoms can be created and destroyed. In addition, the theory does not recognize the existence of different ISOTOPES of an atom. Nonetheless, the theory works extremely well as a platform for describing almost every chemical and physical process we will examine in this course. TIME OUT. We all know that atoms are made up of ELECTRONS and PROTONS and NEUTRONS, but Dalton didn’t in the early 1800s. And we don’t need to know this either to appreciate descriptive chemistry and stoichiometry calculations that are covered in this review material. So kick back and enjoy the simplicity of believing that atoms are small indivisible particles: tiny billiard balls of different sizes.Chemical Formulas: ATOMS Before we can start working all our stoichiometry problems, we have to be able to develop a NOMENCLATURE, a short-hand language, for describing atoms and molecules. We will use as a starting place, the shorthand notation for elements found in every periodic table. Try memorizing a few dozen elements and their abbreviations from early in the periodic table to speed up your test taking. Here are a dozen to get you started. Atomic number Name Symbol Period, Group Chemical series Mass (g/mol) 1 Hydrogen H 1 1 Nonmetal 1.00794 2 Helium He 1 18 Noble gas 4.002602 3 Lithium Li 2 1 Alkali metal 6.941 4 Beryllium Be 2 2 Alkaline earth 9.012182 5 Boron B 2 13 Metalloid 10.811 6 Carbon C 2 14 Nonmetal 12.0107 7 Nitrogen N 2 15 Nonmetal 14.0067 8 Oxygen O 2 16 Nonmetal 15.9994 9 Fluorine F 2 17 Halogen 18.9984032 10 Neon Ne 2 18 Noble gas 20.1797 11 Sodium Na 3 1 Alkali metal 22.98976928 12 Magnesium Mg 3 2 Alkaline earth 24.3050 By the way, do you HAVE to memorize the elements? Of course not. There is always a periodic table handy. But if you find yourself having to look up oxygen’s atomic mass of 16 for the 300th time, you are probably not finishing the exams on time.Chemical Formulas: MOLECULES Recall that Dalton’s theory suggests that MOLECULES can be made from simple combinations of atoms. We can write a shorthand notation for this by using a subscript beside the atom abbreviation. In its simplest form with a single type of element we can have Monatomic molecules He helium Ne neon Diatomic molecules O2 dioxygen H2 dihydrogen Polyatomic molecules P4 tetraphosphorous S8 octasulfur We can also mix elements together in various combinations to form the vast array of MOLECULES that make up our universe: one hydrogen and one chloride HCl hydrochloric acid two hydrogens and one oxygen H2O water one nitrogen and three hydrogens NH3 ammonia three carbons and eight hydrogens C3H8 propane The entire first half of the course is in fact spent discussing bonding theories so that you can draw three dimensional structures of the compounds above, and thousands more, in your sleep.Ions: Compounds with charge Life is never simple and chemistry being part of life, chemistry is never simple either. For reasons we will learn about later, it is possible to find compounds which are not neutral but instead possess a charge. CATION: a positively charged compound Na+ NH4+
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