Ions are completely different from the element of the same name Valence electrons are mainly responsible for chemical/physical properties. alkali metals.

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Presentation transcript:

Ions are completely different from the element of the same name Valence electrons are mainly responsible for chemical/physical properties. alkali metals are so reactive because they “want” to get rid of that electron. An ion is the element after it got rid of the electron. Therefore the atom is nowhere near as reactive as it used to be. This is like comparing the ashes from a stick of dynamite to the stick of dynamite.

So are ions like noble gases? No, ions are not the same as noble gases valence electrons are mainly responsible for chemical/physical properties but not solely responsible. Protons and neutrons still have a role. When K loses an electron or Cl gains an electron it has the same number of electrons as Ar, however protons and neutrons are different. so K +, Cl -, and Ar are different things, even though they have the same number of electrons.

charges also affect properties Ar is neutral so it would be unaffected by a positive or negative charge. Cl - is attracted to a positive charge and repelled by a negative charge. K + would be attracted by a negative charge and repelled by a positive charge.

Periodic Trends

Periodic trend ~noting a property that is regularly repeating. Like noting all elements in group 18 are gases. Or metals in group 11 don’t readily rust.

How to tell what is more reactive Most reactive metals are down and to the left (most metallic) Most active metal is Fr then Cs then Ra Most reactive nonmetals are up and to the right, excluding the noble gases most active nonmetal is F then O then Cl As you move towards the center of the table elements become less active.

Least Reactive Elements Least Active elements are the Noble Gases Far right column of periodic table (group 18) They are also called the inert gases

Atomic Radii atomic radius- how big an atom is (radius- distance from center of atom to edge) As you add an energy level it gets bigger As you add more protons (higher atomic #), there is more attractive force so it gets smaller Energy levels have a greater effect than protons

Largest and smallest So start big get smaller across a period, then get bigger as you drop down a period The element with the smallest atom is… helium The element with the largest atom is francium

Ionization Energy Ion- atom (or molecule) with a charge Ions are created when you add or remove electrons (protons can’t be added or removed) Ionization Energy- the energy required to remove an electron from an atom

Ionization energy levels Atoms that want to give electrons have a low ionization energy (metals) Atoms that want to take electrons have a high ionization energy (nonmetals) The noble gases have an even higher ionization energy

Trends in ionization energy As you move from left to right Elements have a higher ionization energy As you move down Elements have a lower ionization energy This is because the electrons are further from the nucleus so they are not held as tightly

Electron affinity electron affinity- the ability of an atom to attract and hold an electron This is measured by the amount of energy that is released when the atom gains an electron When energy is released it is a negative number This means the lower the number, the more it wants an electron

Periodic trends in electron affinity All noble gases have a positive electron affinity, meaning it takes energy to make an electron stay there (just about) Everything else releases energy Halogens have the lowest electron affinity (meaning they release the most energy) Generally as you go down and to the left it increases

Organization of the periodic table Graphing of all of these trends helped with the modern organization of the periodic table When you graph these properties and others (like boiling and melting point) you see similar patterns reoccurring. When you put the reoccurring patterns on top of each other you have organized them by our groups

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