Chapter 2: Atoms and Elements
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1 C h e m i s t r y 1 A C h a p t e r 2 P a g e 1 Chapter 2: Atoms and Elements Homework: Read Chapter 2: Work out sample/practice exercises. Bonus Chapter 2 Problems: 31, 37, 39, 41, 47, 53, 59, 61, 67, 75, 83, 89, 91, Check for the MasteringChemistry.com assignment and complete before due date Early Ideas on Matter: Philosophers (Chinese, Greeks, etc) has speculated about the nature of stuff Leucippus (fifth century BC) and his student Democritus ( BC) first suggested the material world when broken down to the extreme would consist of indivisible particles called atomos, meaning indivisible. Alchemists through the middle ages physically experimented with matter aiming to create gold from base metals and an elixir for everlasting life. Englishman Robert Boyle ( ) is generally credited as the first to study the separate science we call chemistry and the first to perform rigorous experiments. Antoine Lavoisier ( ) discovered the mass of combustion products exactly equals the mass of the starting reactants. Law of Mass Conservation (Law of Conservation of Matter); Mass is neither created nor destroyed in chemical reactions Joseph Proust ( ) studied copper carbonate, the two tin oxides, and the two iron sulfides. He made artificial copper carbonate and compared it to natural copper carbonate, showing that each had the same proportion of weights between the three elements involved (Cu, C, O). He showed that no intermediate indeterminate compounds exist between the two tin oxides or the two iron sulfides. Law of Definite Proportions (Law of Constant Composition); Elements combine together in specific proportions. All samples of a given compound, regardless of their source or how they were prepared, have the same proportions of their constituent elements. These early ideas led to the foundation steps in atomic theory. Atomic theories explain the behavior of atoms. We will cover Dalton s Indivisible atom, JJ Thomson s Plum Pudding model, Rutherford s Nuclear model of the atom, the Bohr s Quantum (orbit) model that mathematically only works for one electron systems and the Orbital Wave Mechanical model. The first three models are found in Chapter 2 while the last two are found in Chapters 7
2 C h e m i s t r y 1 A C h a p t e r 2 P a g e 2 John Dalton ( ) an English chemist that offered evidence to support atoms using the law of conservation of mass and the law of definite proportions. Dalton s Atomic Theory (1808): 1. Elements are composed of tiny, indivisible particles called atoms. 2. Atoms of a given element are identical in properties, but atoms of one element are different from the atoms of all other elements. 3. Compounds form when atoms of two or more different elements combine in whole number ratios. 4. Chemical reactions do not create or destroy atoms, they are just rearranged. Dalton s atomic theory led to another scientific law Law of Multiple Proportions: When two elements form two different compounds, the masses of elements (B) that combine with 1g of element (A) can be expressed as a ratio of small whole numbers. Example: CO(1 g C to 1.33 g O) vs CO 2 (1 g C to 2.67 g O) J. J. Thomson ( ): Cathode ray tubes (CRT) contain very low pressures of a gas and have high voltage passed through electrodes on either end. Experiments with CRT gave off the same negatively charged radiation that fluoresced when using many different gases. By 1897, JJ Thomson published a paper concluding cathode rays are streams of negatively charged particles, later known as electrons. This experiment led to a divisible neutral atom with both negative and positive charges. JJ Thomson called his atomic theory the Plum Pudding Model of the atom. A positive sphere like pudding contains particles (plums) of negatively charged electrons that were found through the CRT experiments. Thomson assumed there were no positively charged particles since none showed up in the experiment and predicted the mass of the atom comes from the mass of electrons.
3 C h e m i s t r y 1 A C h a p t e r 2 P a g e 3 In 1909 Robert Millikin succeeded in measuring the charge of an electron ( x Coulombs) through an oil drop experiment performed numerous times over 5 tedious years. Using Thomson s charge to mass ratio ( x 10 8 C/g) the electron mass was accepted as x g, about 2000 times smaller than a single H atom. Ernest Rutherford ( ): In 1910 Ernest Rutherford created an experiment to test Thomson s Plum Pudding model, the gold foil experiment. Results showed most heavy positive alpha particles passed through a thin gold foil. Surprisingly, a small portion of alpha particles were deflected or even sent back. If Thomson s atomic model was correct, this would be similar to a rifle shot through tissue paper, and no bullet should be deflected.
4 C h e m i s t r y 1 A C h a p t e r 2 P a g e 4 The gold foil experiment led to Rutherford s Nuclear Model of the atom. The nuclear model has the positive charge (protons) densely set in the center (nucleus) and the particles of electrons spread out in a cloud around the nucleus. Neutrons: It makes no sense to have positive particles (protons) so close together in the nucleus, they would repel each other. Additionally, mass was missing. Rutherford s student, James Chadwick ( ), proposed there are neutrons, neutral particles within the nucleus similar to protons. Neutrons were finally isolated in Atomic Structure: What we have so far Particle Charge Mass (amu) Mass (g) Electron x 10-4 amu x g Proton amu x g Neutron amu x g 1 amu = x g Atoms are tiny with diameters around 1-5 x m: 1 angstrom = 1 x m Atoms are surrounded by a cloud of negatively charged electrons. Nucleus contains almost all the mass. It is positively charged and contains protons (+1 ) and neutrons (0 charge) The nucleus has a diameter 10,000 times smaller than the atom. This is equivalent to a marble (nucleus) in the center of a large football stadium.
5 C h e m i s t r y 1 A C h a p t e r 2 P a g e 5 Neutral atoms have the same number of electrons and protons. Elements are defined by their number of protons Electrons can be lost to create a cation or gained to create an anion. The number of neutrons my vary creating various isotopes. The unique number of protons is called the Atomic Number (Z) The protons plus neutrons is the Mass Number (A) Nuclide symbols: ( ): indicate particular isotopes and ions. Each element has a unique number of protons (atomic number, Z). The number of protons defines the element. Isotopes vary the number of neutrons. Isotopes are chemically identical. Ions have more or less electrons than protons. Cations lose electrons, are positive (metals) Anions gain electrons, are negative (nonmetals) Example 1: Fill in the nuclide symbols chart. Symbol name protons neutrons electrons atomic mass Barium ion Cr Carbon-12 Carbon-14 Sulfide ion 16 18
6 C h e m i s t r y 1 A C h a p t e r 2 P a g e 6 Finding Patterns: The Periodic Law and Periodic Table: 1869 Dmitri Mendeleev (Russia) and Lothar Meyer (Germany) classified known elements by organizing similar physical and chemical properties. Mendeleev s periodic table was an attempt to organize the known data at the time in a way that made sense. Elements were arranged by increasing atomic mass and grouped together by chemical reactivity. Several holes led to predictions of elements and their properties that were not yet discovered ekaaluminum (Ga) and eka-silicon (Ge). Periodic Law when the elements are arranged in order of increasing atomic mass, certain sets of properties recur periodically Ordered elements by atomic mass Put elements with similar properties in the same column Used pattern to predict properties of undiscovered elements Where atomic mass order did not fit other properties, he re-ordered by other properties Example: Te & I 1913 *Henry Moseley improved the periodic table by ordering the elements by increasing atomic number. More holes were found, which led to the discovery of more elements and the family of noble gases. The periodic table gives us a great amount of information in an organized manner. Groups or families are in vertical columns. If properties of a couple elements in a group are known, one can make a good guess at the properties of other elements in the same group. Periods are the horizontal rows in the periodic table. Many patterns can be seen or predicted following periods and groups. Two more atomic theories in later chapters will study more of the periodic patterns the theories attempt to explain.
7 C h e m i s t r y 1 A C h a p t e r 2 P a g e 7 * Henry Moseley (23 November August 1915): In 1910, he started work with Ernest Rutherford. In 1913, by using x-ray spectra obtained by diffraction in crystals, he found a systematic relation between wavelength and atomic number, Moseley's law. His experiments show that cobalt and nickel have clearly differing atomic numbers of 27 and 28, and are correctly placed in the periodic table by an objective measure. Moseley's discovery showed that atomic numbers have an experimentally measurable basis. In addition, Moseley discovered gaps in the atomic number sequence at 43, 61, 72, and 75. These spaces are technetium, promethium, hafnium (discovered 1923) and rhenium (discovered 1925). In 1914, Henry Moseley enlisted in the Royal Engineers when World War I broke out. He was killed in action by a sniper in 1915, shot through the head while telephoning an order. Isaac Asimov once wrote that "In view of what he [Moseley] might still have accomplished... his death might well have been the most costly single death of the war to mankind generally." Many speculated that Moseley should have won the Nobel Prize, but it is not awarded posthumously. It is speculated that because of Moseley's death in the War, the British and other world governments began a policy of no longer allowing their scientists to enlist for combat. Twenty-seven years old at death, Moseley could in many scientists' opinions have contributed much to the knowledge of atomic structure had he lived. Atomic Weights: The atomic mass scale has been arbitrarily defined by international agreement. The scale uses the standard isotope carbon-12, defining its mass to be exactly 12 amu. Weighted average atomic masses take into consideration the natural abundance of all the isotopes of an atom. Masses and isotopic abundances are measured by Mass Spectroscopy.
8 C h e m i s t r y 1 A C h a p t e r 2 P a g e 8 Difference between simple average and weighted average: Solve for the two averages a) Simple average of the numbers 10, 16, 18, 20 b) Weighted average given that. 10% is 10, 20% is 16, 30% is 18, 40% is 20 Mass Spectrums quantify the result of Mass Spectroscopy mass spectrum for zirconium Number of isotopes The 5 peaks in the mass spectrum shows that there are 5 isotopes of zirconium - with relative isotopic masses of 90, 91, 92, 94 and 96 on the 12 C scale. Abundance of isotopes One can find relative abundances by measuring the lines on the stick diagram. In this case, the 5 isotopes (with their relative percentage abundances) are: zirconium % zirconium % zirconium % zirconium % zirconium % Working out the relative atomic mass Weighted Atomic Mass = (0.515 x 90)+(0.112 x 91)+(0.171 x 92)+(0.174 x 94)+(0.028 x 96) = 91.3 (to 3 significant figures) is the relative atomic mass of zirconium. This example rounds off the isotopic masses much more than generally acceptable
9 C h e m i s t r y 1 A C h a p t e r 2 P a g e 9 Example 2: Calculate the weighted average atomic mass of lead given the following information on its naturally occurring isotopes 204 Pb: amu 1.4% 206 Pb: amu 24.1% 207 Pb: amu 22.1% 208 Pb: amu 52.4% Example 3: There are two naturally occurring isotopes of chlorine. Calculate the percent abundance of each isotope given the following information on the masses and given that the naturally occurring weighted atomic mass of chlorine is amu 35 Cl: amu (1-x) 37 Cl: amu (x)
10 C h e m i s t r y 1 A C h a p t e r 2 P a g e 10 Periodic Table Groups: Metals Nonmetals Metalloids/semimetals Main Group Transition Metals Inner Transition Metals or Actinides and Lanthanides Alkali Metals Alkaline Earth Metals Halogens Noble Gas Others Predicting Ion Charges: Cations: +1, +2, +3, varies Naming cations: Anions: -1, -2, -3 Naming anions Counting Atoms by Moles: Avogadro s number: x particles = 1 mole Converting atoms to moles Converting moles to atoms Molar Mass: Solving for molar mass of compounds and molecules O 2 NaHCO 3
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