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Chapter 4 – Atomic Structure Atom - Greek for “Atomon” means“Indivisible” - Smallest unit that can exist alone or in combination with other atoms. Chapter 4 – Atomic Structure Atom - Greek for “Atomon” means“Indivisible” - Smallest unit that can exist alone or in combination with other atoms. Structure of an Atom … Things we know Two main areas of the atom: Nucleus Electron cloud Chapter 4 – Atomic Structure Atom - Greek for “Atomon” means“Indivisible” - Smallest unit that can exist alone or in combination with other atoms. Structure of an Atom … Things we know Two main areas of the atom: Nucleus - contains protons (+) and neutrons (0) - dense, small Electron cloud - contains electrons (-) - surrounds nucleus, mostly empty space - arranged in shells or energy levels Chapter 4 – Atomic Structure Atom - Greek for “Atomon” means“Indivisible” - Smallest unit that can exist alone or in combination with other atoms. Structure of an Atom … Things we know Two main areas of the atom: Nucleus - contains protons (+) and neutrons (0) - dense, small Electron cloud - contains electrons (-) - surrounds nucleus, mostly empty space - arranged in shells or energy levels Atom itself is neutral: Why? Number of p+ = en0 are neutral - no effect Ions- atoms or molecules in which the total number of electrons does NOT equal the total number of protons. These particles have a CHARGE. Cations- positive ions (lose electrons) Anions- negative ions (gain electrons) Isotopes – atoms of the same element with different masses due to a different number of n0 Ex. H has 3 isotopes 1 2 1H 1 1 p+ 3 H 1 1 p+ 1 e- 1 n0 1 e- H 1 p+ 1 e- 2 n0 The only thing that changes is the neutrons… …so it is still hydrogen and acts like hydrogen but it is a little heavier with each additional neutron added… What if you change the number of neutrons? electrons? More on Structure of an Atom … Things we know… Atom is very, very small overall→ we measure it in Angstroms 1 A = 1 x 10-10 m More on Structure of an Atom … Things we know… Atom is very, very small overall→ we measure it in Angstroms 1 A = 1 x 10-10 m Compare size of electron cloud to nucleus Nucleus is extremely tiny compared to the electron cloud. How much smaller????? More on Structure of an Atom … Things we know… Atom is very, very small overall→ we measure it in Angstroms 1 A = 1 x 10-10 m (compare to Metric system units) 10 mill A = 1 mm Compare size of electron cloud to nucleus Nucleus is extremely tiny compared to the electron cloud. Nucleus “marble” How much smaller????? Nucleus is a marble in the middle of a football stadium. Electron Cloud “football field” More on Structure of an Atom … Things we know… Compare size of proton, neutron, and electron More on Structure of an Atom … Things we know… Compare size of proton, neutron, and electron Nucleus Proton’s mass = 1 amu Neutron’s mass = 1 amu More on Structure of an Atom … Things we know… Compare size of proton, neutron, and electron Electron’s mass = 0 amu Electron Cloud Nucleus Proton’s mass = 1 amu Neutron’s mass = 1 amu More on Structure of an Atom … Things we know… Compare size of proton, neutron, and electron Interesting Stuff … all the mass of the atom is in the nucleus…Wow! What does that mean about the density of the nucleus? Electron’s mass = 0 amu Electron Cloud Nucleus Proton’s mass = 1 amu Neutron’s mass = 1 amu More on Structure of an Atom … Things we know… Compare size of proton, neutron, and electron Interesting Stuff … all the mass of the atom is in the nucleus…Wow! What does that mean about the density of the nucleus? Electron’s mass = 0 amu Nucleus Electron Cloud Proton’s mass = 1 amu Neutron’s mass = 1 amu 1 amu (atomic mass unit) = 1.673 x 10-24 g The atomic mass unit is easier to use to describe something so ridiculously small! 0.000000000000000000000001673 g Does an electron having “0” amu means it weighs nothing? Not Exactly … It’s just it is so small it does not matter relatively … More on Structure of an Atom … Things we know… A word about the … amu *amu – atomic mass unit – special unit for the mass of an atom. 1/12 mass of carbon-12 atom. (relative to atom) More on Structure of an Atom … Things we know… A word about the … amu *amu – atomic mass unit – special unit for the mass of an atom. 1/12 mass of carbon-12 atom. (relative to atom) Similar to: 2000 lbs. = 1 ton Easier to say 10 tons than 20,000 lbs. Just like: 1 amu (atomic mass unit) = 1.673 x 10-24 g Easier to say 2 amu than 2.346 x 10-24 g How did we figure out all this stuff about the atom??? Because the atom is so small !!!!! How did we figure out all this stuff about the atom??? Because the atom is so small !!!!! Before I start into the history… …a little bit about Indirect Evidence??? Where to hunt? Measure thickness of paper or a dollar? How did we figure out all this stuff about the atom??? Because the atom is so small !!!!! 400 BC Democritus The idea of the atom stems back to 400 BC by a Greek thinker named Democritus …he called matter “atomon” meaning “indivisible” How did we figure out all this stuff about the atom??? 400 BC Because the atom is so small !!!!! Now, this guy did not have any proof…he just thought about it and told people what he thought … …Good Guess?? Democritus The idea of the atom stems back to 400 BC by this Greek thinker …he called matter “atomon” meaning “indivisible” How did we figure out all this stuff about the atom??? Because the atom is so small !!!!! 1782 Antoine Lavoisier Law of conservation of mass matter cannot be created nor destroyed How did we figure out all this stuff about the atom??? Because the atom is so small !!!!! H2O two H’s one O For this compound to be water… it must have exactly 2 H and 1 O 1799 What is this? H2O2 Joseph Proust Law of definite proportions a chemical compound contains the same elements in exactly the same proportions by mass How did we figure out all this stuff about the atom??? Carbon monoxide CO Because the atom is so small !!!!! C = 12 g O = 16 g C = 12 g O = 32 g Ratio 1 : 1 Carbon dioxide 1803 CO2 Ratio 1 : 2 Same elements but different ratios make different compounds John Dalton Law of multiple proportions If compounds are composed of the same elements, the masses of the elements can be expressed as ratios of small whole #’s. How did we figure out all this stuff about the atom??? Because the atom is so small !!!!! 1803 John Dalton The Atomic Theory 1. All matter is composed of extremely small, indivisible particles, called atoms. 2. Atoms of the same element are chemically alike. Atoms of different elements are chemically different. . 3. Atoms combine in whole # ratios to form compounds. 4. Atoms are combined, separated, or rearranged in chemical reactions. How did we figure out all this stuff about the atom??? Joseph Thompson 1897 Used a cathod ray tube to prove there were negative charged particles (now known as electrons) in an atom. This opened the way to the idea that an atom was not just a solid sphere not able to be broken down anymore. Because the atom is so small !!!!! How did we figure out all this stuff about the atom??? 1911 Because the atom is so small !!!!! Earnest Rutherford In the gold foil experiment, he proved that the electron cloud was huge in volume comparison to the nucleus and the nucleus was extremely dense. How did we figure out all this stuff about the atom??? Because the atom is so small !!!!! 1913 Neils Bohr He proposed a model of the atom that showed that ecircled that nucleus of an atom in only allowed orbits or paths. The Evolving Atomic Model Summary Dalton Model Thomson Model Rutherford Model Bohr Model 1803 – John Dalton believed that an atom was an indestructible particle with no internal frame. 1897 – J.J. Thomson discovers the electron. He believed electrons were embedded in positive charge sphere. 1911 – Ernest Rutherford discovers that there is a dense, positively charged nucleus. Electrons go around the nucleus. 1913 – Niels Bohr enhances Rutherford’s model by having electrons move in a circular orbit at fixed distances from the nucleus. (Billiard Ball Model) (Plum pudding Model) Atomic Number – number of p+ in the nucleus of an atom (always equal to number of e-) Mass Number – number of p+ and n0 in the nucleus of an atom Atomic Weight (mass) – the average mass of the isotopes The mass number is just the atomic weight rounded off to a whole number!! Atomic Weight 32.065 Shorthand method: 32 16 S Mass # (rounded) 32 Put light blue boxes on your periodic table…as a reference Atomic # (# of p+ or e-)Mass # - Atomic # = n0 Atomic Weight Atomic # Mass # # p+ # e# n0 = = = = = = (Avg. mass of isotopes) = (number of protons or electrons) = (Atomic weight rounded) = (same as Atomic #) = (same as Atomic #) = (Mass # - Atomic #) = Try Sodium (Na): Atomic Weight Atomic # Mass # # p+ # e# n0 = = = = = = (Avg. mass of isotopes) (number of protons) (Atomic weight rounded) (same as Atomic #) (same as Atomic #) (Mass # - Atomic #) 32.066 16 32 16 p+ 16 e 16 n0 (32 – 16) = ________ = ________ = ________ = ________ = ________ = ________ Atomic Weight Atomic # Mass # # p+ # e# n0 = = = = = = (Avg. mass of isotopes) = (number of protons or electrons) = (Atomic weight rounded) = (same as Atomic #) = (same as Atomic #) = (Mass # - Atomic #) = Try Sodium (Na): Atomic Weight Atomic # Mass # # p+ # e# n0 = = = = = = (Avg. mass of isotopes) (number of protons) (Atomic weight rounded) (same as Atomic #) (same as Atomic #) (Mass # - Atomic #) 32.066 16 32 16 p+ 16 e 16 n0 (32 – 16) = ________ 22.99 = ________ 11 23 = ________ 11 = ________ 11 = ________ 12 = ________ PRACTICE THESE………… Au Atomic Weight Atomic # Mass # Ag Pb = (Avg. mass of isotopes) = _______________ = (number of protons) = ______________ = (Atomic weight rounded) = ______________ # p+ = (same as Atomic #) = ______________ # e- = (same as Atomic #) = ______________ # n0 = (Mass # - Atomic #) = ______________ PRACTICE THESE………… Au Atomic Weight = (Avg. mass of isotopes) Atomic # = (number of protons) Ag Pb 196.97 107.87 207.2 = __________________ 79 47 82 = __________________ 197 108 207 Mass # = (Atomic weight rounded) = __________________ # p+ = (same as Atomic #) 79 47 82 = __________________ # e - = (same as Atomic #) 79 47 82 = __________________ # n0 = (Mass # - Atomic #) 118 61 125 = __________________ Shorthand Notation Mass # Atomic # Ions- atoms or molecules in which the total number of electrons does NOT equal the total number of protons. These particles have a CHARGE. Cations- positive ions (lose electrons) Anions- negative ions (gain electrons) Periodic Table Horizontal Rows are periods. Indicate how many shells are needed to hold all of the electrons Vertical columns are Groups or families Indicate the # of valence electrons 1 2 3 4 5 6 7 8 Ions NonMetals Metals Gain electrons until they Lose Valence electrons have 8* Form Positive Ions Equal to Group # Form negative ions Cations Equal to how many electrons they gained Anions *Helium has 2 valence e*Silver has 1 valence e- 1 2 3 4 5 6 7 8 * * Ions Metals (regular name) NonMetals (end in “ide”) Ca+2 Calcium Ion F-1 1 2 Fluoride 3 4 5 6 7 8 Isotopes – atoms of the same element with different masses due to a different number of n0 Ex. H has 3 isotopes 1 2 1H 1 1 p+ 3 H 1 1 p+ 1 e- 1 n0 1 e- H 1 p+ 1 e- 2 n0 The only thing that changes is the neutrons… …so it is still hydrogen and acts like hydrogen but it is a little heavier with each additional neutron added… If you change the number of neutrons…it is still Carbon but it makes a different isotope. Carbon –12 Carbon - 14 Different number of neutrons 8 Isotopes? Which of the following represent isotopes of the same element? Which element? What is an Average Atomic Mass (weight)? Look at our periodic table…why the decimals???? It comes from the isotopes…Let’s look at Oxygen… 16 17 8O 8 8 p+ 8 n0 18 O 8 8 p+ 8 e- 9 n0 8 e- 0.038% 99.762% O 8 p+ 81 e- 10 n0 .20% Almost all of Oxygen is Oxygen 16 but there are small amounts of the others…therefore it makes sense that the average atomic mass would be closest to 16…here is how it is figured … Oxygen 16 Oxygen 17 Oxygen 18 (15.994915)(0.99762) + (16.999131)(0.00038) + (17.999160)(0.0020) = 15.9994 average atomic mass Isotope Calculations (abundance as a decimal) ( mass of isotope) + (abundance as a decimal) ( mass of isotope) + (abundance as a decimal) ( mass of isotope) Answer = Isotope Calculations Element X has two natural isotopes. The isotope with a mass of 10.012 amu has a relative abundance of 19.91%. The isotope with a mass of 11.009 amu has a relative abundance of 80.09%. Answer = 10.810 amu Lewis Dot Structures 1) Find your element on the periodic table. 2) Determine the number of valence electrons. 3) This is how many electrons you will draw Lewis Dot Structures 1) Write the element symbol. 2) Write down the number of valence electrons (based of the group #) 3) Write down the symbol and draw an imaginary box around it 4) Draw the valence electrons as dots on the sides of the box. One at a time on each side until you are out of valence electrons Lewis Dot Structures On an open area on your notes, try these elements on your own: 1) H 2) P 3) Ca 4) Ar 5) Cl 6) Al Bohr Model of the Atom – …Kinda like concert seating! Put the number of p+ , n0 , and e- in the diagram as shown… Lets diagram Sulfur p+ = Atomic # = 16 e- = Atomic # = 16 n0 = Mass # - Atomic # = 32 – 16 = 16 Remember that mass # is atomic weight rounded Maximum seats = 2 8 18 32 p+ = 16 e- = 2 n0 = 16 e- = 8 e- = 62 e- = Bohr Model of the Atom – …Kinda like concert seating! Put the number of p+ , n0 , and e- in the diagram as shown… Lets diagram Sulfur p+ = Atomic # = 16 e- = Atomic # = 16 0 = Mass # - Atomic # = 32 – 16 = 16 n *NOT ACTUAL MODEL* Remember that mass # is atomic weight rounded Maximum seats = 2 8 18 2n2 32 p+ = 16 e- = 2 e- = 8 e- = 62 e- = n0 = 16 1 2 3 4 n = shell number Bohr Model of the Atom – Try these… Lithium Magnesium Helium Argon Maximum seats = 2 8 18 2n2 32 p+ = ? e- = 2 e- = 8 e- = 62 e- = n0 = ? 1 2 3 4 n = shell number