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Published byAdela Barber Modified over 9 years ago
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Grab a note sheet off the center stool Get out your Periodic Table. Fill in the first FIVE questions
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Check your answers and then answer the rest of the questions based on this video. Check your answers and then answer the rest of the questions based on this video. Intro to Ionic/Covalent Video Intro to Ionic/Covalent Video
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What is the “goal” of atoms? What makes them happy? To achieve a filled valence shell. How can atoms achieve this? To do this, atoms must gain or lose electrons to form ions. Or others share electrons. ( both are forms of bonding)
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They make an Ion- Atom that has gained or lost an electron, and therefore has a positive or negative charge based on the number of electrons it has lost.
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Cation- positively charged ion Anion- negatively charge ion
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What is an Ionic Bond? Complete transfer of 1 or more electrons from one atom to another (one loses, the other gains) forming oppositely charged ions that attract one another Good Animation on Ionic Bonding Good Animation on Ionic Bonding
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What is a Covalent Bond S ome valence electrons are shared between atoms to achieve a “full” valence shell.
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A bond can result from an overlap of atomic orbitals on neighboring atoms (sharing of electrons in those orbitals). Note that each atom has a single, unpaired electron. Cl HH + Overlap of H (1s) and Cl (3p)
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Remember that valence electrons are the electrons in the OUTERMOST energy level. We know this by looking at the groups on the Periodic Table.
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2 Methods: Draw up the Lewis Dot Structures. Swap Charges (works only for ionic) How to Make Ionic Bonds How to Make Ionic Bonds
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Step 1, determine the # of valence electrons (either through group # for first 18 or through looking at electron configuration) If you can lose them, then you get a + charge. Why? If you need them, you get a (-) charge. Why? Step 2, Then write the Atomic Symbol, surrounded by the electrons represented as dots.
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Step 3, place the dot structures next to each other (metal first if ionic bond). Then exchange dots.
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Write each of the atoms with their charges. Then swap the charges down to the front of the other atom to determine how many you need of each to balance out the charges.
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Subscripts determine the number of atoms of that element in the molecule. Coefficients determine how many molecules you have.
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