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- Carboxcylic Acid
- Anhydride
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- Peroxide
- technically hydrogen peroxide
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Ionic Bond
Results from a transfer of electrons
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Covalent Bond
results from sharing of electrons
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Orbital
a region of space where an electron is likely to be found
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Pauli Exclusion Principle
only two electrons can occupy any atomic orbital, and to do so these two must have opposite spins. These electrons in opposite spins are said to be paired.
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- Linear
- 0 lone pairs
- 180 degree bond angle
OR
3 lone pairs
OR
4 lone pairs
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- Trigonal Planar
- 0 lone pairs
- 120 degree bond angle
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- Tetrahedral
- 0 lone pairs
- 109 degree bond angle
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- Trigonal Bipyramid
- 0 lone pairs
- 120 degree bond angle on horizontal plane
- 90 degree bond angle on vertical plane
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- Octahedral
- 0 lone pairs
- 90 degree bond angle
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- Bent or angular
- 1 lone pairs
- 120 degree bond angle
OR
- 2 lone pairs
- 109 degree bond angle
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- Trigonal Pyramid
- 1 lone pairs
- 109 degree bond angle
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- Sawhorse or SeeSaw
- 1 lone pairs
- 120 degree bond angle on horizontal plane
- 90 degree bond angle on vertical plane
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- Square Pyramid
- 1 lone pairs
- 90 degree bond angle
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- T Shape
- 2 lone pairs
- 90 degree bond angle
OR
3 lone pairs
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- Square Planar
- 2 lone pairs
- 90 degree bond angle
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Polar Bond
One end of the bond is relatively negative and the other end is relatively positive (i.e. there is a negative pole and a positive pole).
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Wolff-Kishner reaction
reduces ketones to alkanes with NH2OH then KOH
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Gilman reagent
R2CuLi + RCOCl (creates ketones from chlorides)
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anion
Negatively charged atom
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cation
Positively charged atom
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bond length
The distance between two bonded atoms
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bond energy
The amount of energy needed to split bonded atoms
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hydrocarbon
Compounds with just carbon and hydrogen atoms
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isomer
Molecules with the same kinds and numbers of atoms in different structural orders
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polar covalent bond
when two non-identical atoms are bonded, they must have different electronegativities, and will attract the shared electrons to different extents, creating a dipole
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valence electrons
the outermost (most loosely held) electrons
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node
a region of zero electron density separating regions of opposite sign in an orbital.
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Notation:
n-, s-, and t-
- When it’s used: for short chain alkanes and alcohols.
- What it means: n- means “normal” – an unbranched chain with the functional group (if present) on the 1-position. s- means “secondary”, t- means “tert“.
- Why it’s useful: Just a shorthand way of describing different structural isomers.
- Notes: n-hexane is another frequently encountered name, which simply represents a linear six-carbon chain. “Hexanes”, which you might see in the lab, refers to a mixture of different (branched) isomers of hexane.(it’s purified by distillation, and the isomers have very similar boiling points, so it’s sold as “hexanes”. Pure n-hexane is more expensive because separating it from its isomers is a royal pain).
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Notation:
The N- prefix
- When it’s used: for amines and amides.
- What it means: The N- signifies that the substitutent is connected to the nitrogen.Example: N-methyl butylamine, N,N-dimethylformamide.
- Why it’s useful: it removes ambiguity. “Methyl butylamine”, for instance, could refer to an isomer where the methyl group is on the carbon chain.
- Notes; when different substituents are present on the nitrogen, the terminology is N-(substituent),N-(substituent), for instance N-methyl,N-ethylbutylamine.
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Notation:
L and D
- When it’s used: for sugars and amino acids.
- What it means: It goes back to Emil Fischer, who designated the two enantiomers of glyceraldehyde (the simplest sugar) L-glyceraldehyde and D-glyceraldehyde. At a time (1890) where techniques for determining absolute structure were not available, he GUESSED(!) that structure of the leveratory (left-rotating) and dextrarotatory (right-rotating) structures of glyceraldehyde was as depicted in the Fischer projection, and gave them the prefixes L and D respectively. Thankfully, when X-ray crystallography was developed, it was found that his guess was correct. In L-sugars, the oxygen on the carbon second from the end is on the left hand side in the Fischer projection. In D-sugars, the oxygen is on the right-hand side.
- Why it’s useful: It was originally used to correlate the absolute structures of sugars to the two glyceraldehydes. It is no longer useful for this purpose, but like the appendix, it hangs around anyway. Like the appendix, it only seems to get noticed when it causes problems.
- Notes: This notation causes a lot of confusion. Just because something is “D” does not mean it rotates polarized light to the right and vice versa [that is the function of (+)- and (–)]. For example D-fructose rotates polarized light to the left (–). Furthermore, any correlation between L/D and S/R is coincidental. The 20 essential amino acids in the body are L-amino acids. They are all (S) except for cysteine, which is (R) (due to the sulfur having higher priority in the Cahn-Ingold-Prelog rules). Racemates are written as DL (for instance, DL-glucose is the racemic mixture).
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chiral carbon atom
a carbon atom that is bonded to four different groups
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conformers
structures that differ only by rotations about single bonds. in most cases, conformers interconvert at room temperature; thus, they are not different compounds and not true isomers
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diastereomers
stereoisomers that are not mirror images
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enantiomers
a pair of nonsuperimposable mirror image molecules: mirror image isomers
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sigma plane
a plane of symmetry through the middle of a molecule, dividing the molecule in to two mirror image halves. a molecule containing this plane cannot be chiral.
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Wash
Washing the product of unwanted impurities
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Separatory funnel (2)
- used to separate solvents based on their relative densities
- the denser solvent is always drained first
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Extraction (3)
- transfer of a dissolved compound from a starting solvent into a solvent in which the product is more soluble
- like dissolves like
- use separatory funnel
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Filtration (4)
- isolates solid from liquid using paper filter
- solid is the residue
- liquid is the filtrate
- 2 types: gravity and vacuum filtration
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Gravity filtration (3)
- solvent's own weight pulls it through the filter
- solvent is desired product
- use hot solvent
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Vacuum filtration (3)
- solvent forced through filter by a vacuum
- solid is desired product
- use Buchner flask
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Z isomer
an isomer having the higher-priority groups on the same side of the double bond
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E isomer
an isomer having the higher-priority groups on opposite sides of the double bond
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diene
a compound with two carbon-carbon double bonds
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triene
a compound with three carbon-carbon double bonds
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tetraene
a compound with four carbon-carbon double bonds
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Heisenberg Uncertainty Principle
you can never determine exactly where an electron is, can only approximate
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Hund's rule
when there are two or more unfilled orbitals electron will go in different ones
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most electronegative atom
Flourine
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larger size makes acidity... (stronger or weaker?)
stronger
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more electro negative makes acid...(stronger or weaker?)
stronger
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lewis bases
species with available electrons to make a bond
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lewis acid
species that can accept a pair of electrons to make a bond
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lewis acid synonym
electrophile
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lewis base synonym
nucleophile
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Bronsted-Lowry acid
any species that can donate a proton
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Bronsted-Lowry base
any species that can accept a proton
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anti addition
a reaction in which two groups add to opposite faces of the double bond
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syn addition
a reaction in which two groups add to the same face of a double bond
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Markovnikovs rule
when a proton acid adds to the double bond of an alkene, the proton bonds to the carbon atom that already has the most hydrogen atoms. in an electrophilic addition to an alkene, the electrophile adds in such a way that generates the most stable intermediate
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If you saw a molecular formula indicating between 1 & 4 carbon atoms, what physical state would you expect the molecule to be in at room temperature
Gas
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If you saw a molecular formula indicating between 5 & 17 carbon atoms, what physical state would you expect the molecule to be in at room temperature
Liquid
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If you saw a molecular formula indicating 18 or more carbon atoms, what physical state would you expect the molecule to be in at room temperature
Solid
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How many valence electrons does Carbon have?
4
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When you hear that a hydrocarbon is unsaturated, what do you know about it?
It must have some double or triple bonds and thus is not bonded to as many hydrogens as possible
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When you hear a hydrocarbon is saturated, what do you know about it
It has only single bonds and is bonded to as many hydrogens as possible.
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Define Isomerism
The possession by two or more distinct compounds of the same molecular formula, each molecule having the same number of atoms of each element, but in different arrangement
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Define allotropism
The existence of an element in two or distinct forms; diamond and graphite
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What is the difference between keytones and aldehydes
Where the double Oxygen bond is placed
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Are Keytones and isomere of aldehydes? Why or why not
No, they have different numbers of hydrogens
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What type chemical do you get if you oxidize a secondary alcohol
ketone
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What is the street name of acetic acid
Vinegar
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What type chemical do you get if you oxidize a primary alcohol
Aldehyde
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zwitter ion
an ion with both + and - charges in same ion
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dehydration
the elimination of a molecule of water from an alcohol. OH is removed from one carbon and H is removed from the other
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hydrogen bonding
the intermolecular force in which a hydrogen atom that is bonded to a highly electronegative atom is attracted to an unshared pair of electrons of an electronegative atom in a nearby molecule
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diol
any of a class of alcohols having 2 hydroxyl groups in each molecule
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triol
any of a class of alcohols having 3 hydroxyl groups in each molecule
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As a substituent, an aromatic ring is called either a ___ or a ___ group
phenyl, aryl
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H₂/Pd
Reduction of Substituent to Single Bonds
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H₂, Pt/2000 psi
Reduction of Ring and Substituent to Single Bonds
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Zn(Hg), HCl
or
NH₂ NH₂ + OH-
Reduction to Alkyl
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Pd/H₂
or
Fe/HCL
or
Sn/ HCL
Reduction to Aniline
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Hydrogen Valence Electrons
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Lithium Valence Electrons
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Nitrogen Valence Electrons
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Cloride Valence Electrons
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Aluminum Valence Electrons
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Magnesium Valence Electrons
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