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> Chemistry: Lecture 1: Atoms, Molecules, And Quantum Mechanics
Glossary of Chemistry: Lecture 1: Atoms, Molecules, and Quantum Mechanics
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- What is the mass of a proton/neutron?
- 1 amu
- Mass Number
- A = protons + neutrons
- Atomic Number
- Z = protons
- Isotopes
- -Two or more atoms of the same element that contain different numbers of neutrons
-Isotopes have similar chemical properties
- amu
- -Atomic Mass Unit
-One atom of carbon 12 has an atomic weight of 12 amu
-6.022*10^23 amu = 1 gram
- Mole
- 6.022 * 10^23
-The number of carbon atoms in 12 grams of carbon 12
- Groups/Families
- Vertical columns
- Metals
- -Form cations(+)
-Metallic character includes ductility, malleability, thermal and electrical conductivity, and a characteristic luster
-Typically form ionic oxides
- Nonmetals
- -Form anions(-)
-Have lower melting points than metals
-Form covalent oxides
- Metalloids
- -Have some characteristics that resemble metals and some that resemble nonmetals
- Elements in the same ________ on the periodic table have similar chemical properties(tend to make same # of bonds, similarly charged ions)
- Family/Group
- Group 1A
- -Alkali Metals (form 1+ cations)
-Soft metallic solids with low densities and low melting points
-Highly reactive
-In nature, exist only in compounds
- Group 2A
- -Alkaline Earth Metals (form 2+ cations)
-Harder, more dense, and melt at higher temperatures than alkali metals
- Group 5A
- -Can form 3 covalent bonds
-All 5A elements except nitrogen can form five covalent bonds by using d orbitals
-Nitrogen(strong) and Phosphorus(weak) can form pi bonds
- Group 6A(chalcogens)
- -Includes oxygen and sulfur
- Oxygen
- -Second most electronegative element
-Divalent and can form strong pi bonds
- Sulfur
- -Can form 2,3,4, or even 6 bonds
-Has ability to make strong pi bonds
- Group 7A(halogens)
- -Highly reactive (like to gain e-)
-Fluorine always has oxidation state of -1, meaning it only makes one bond
- Noble Gases
- -Nonreactive
-All gases at room temperature
- Small Atoms
- -Bond strongly to water, resulting in greater heats of hydration
-Don't have d orbitals, so can't form more than 4 bonds
-Make strong pi bonds due to overlap of p orbitals
- Large Atoms
- -Have d orbitals allowing for more than 4 bonds
-Unable to make strong pi bonds
- When the transition metals form ions, they lose electrons from their ____ subshell first, and then from their ____ subshell
- s,d
- How do atoms lose electrons?
- Atoms lose electrons from the highest energy shell first
- Isoelectric Ions
- -Ions with the same number of electrons
-Tend to get smaller with increasing atomic #
- Effective Nuclear Charge(Zeff)
- -The amount of charge felt by the second electron (EX: in helium)
-Increases from left to right and top to bottom
- Ionization Energy
- -The energy necessary to detach an electron from a nucleas
-Increases from left to right and bottom to top
- Electronegativity
- -Tendency of an atom to attract an electron in a bond that it shares w/ another atom
-Increases from left to right and bottom to top
- Electron Affinity
- -The willingness of an atom to accept an additional electron (energy that is released when an electron is added to a gaseous atom)
-Increases from left to right and bottom to top
- Atomic Radius
- -Increases from right to left and top to bottom
- Metallic Character
- -Increases from right to left and top to bottom
- Bond Length
- -Defined as the point where the energy level is the lowest
- Compound
- -A substance made from two or more elements in definite proportions
- T or F: Energy is not always required to break a bond
- F
- T or F: No energy is ever released by breaking a bond
- T
- Crystalline Solids
- -Sharp melting point, characteristic shape w/ a well ordered structure of repeating units (atoms, molecules, or ions)
-Can be ionic, network covalent, metallic, or molecular
- Amorphous Solid
- -Has no characteristic shape and melts over a temperature range (EX: glass)
- Polymers
- -Solids w/ repeated structural units, and can be crystalline or amorphous
-Rapid cooling results in amorphous solids
-Slow cooling results in crystalline solids
- First Quantum Number
- -Designates the shell (n)
-Has the value (n)
- Second Quantum Number
- -Designates the subshell (l): s,p,d, and f
-Ranges from zero to n-1
- Third Quantum Number
- -Designates the orbital (ml)
-Ranges from l and -l
- Fourth Quantum Number
- -Designates the spin (ms)
-Ranges from 1/2 to -1/2
- Heisenberg Uncertainty Principle
- dx*dp = h
- Hund's Rule
- -Electrons will not fill any orbital in the same subshell until all orbitals in that subshell contain at least one electron, and the unpaired electrons will have parallel spins
- Planck's Equation
- dE = hf (f = frequency)
- de Broglie Equation
- wavelength = h/mv
- de Broglie Equation
- wavelength = h/mv
