-
Cellular Respiration Eq
- C6H12O6 + 6 O2 ---> 6 CO2 + 6 H2O
- L.R.
Limiting Reagent: (used up 1st in rxn)/(least amt)
-
Rules for STOICH
(bal & setting up eq basis of chem)
- 1) Set up Chem-Eq
- 2) Balance Eq
- 3) Convert amts to moles
- 4) Find limiting reagents (use ratios)
- 5) STOICH IT! (use eq)
- 6) Convert to desire units
- always keep in mind ----> ALWAYS USE MOL
- ALWAYS KEEP RATIOS IN MIND!
-
Avogadro's number:
6.022 x 1023
(how many parts/ molec/ atoms per mole)
-
-
Atoms: (3 parts)
single unit of elements
- 1) neutron - 1 amu 0 charge isotopes
- 2) electron - 0 amu -1 charge charge
- 3) proton - 1 amu +1 charge identity
-
isotopes:
diff # neutrons
-
-
Atomic mass (A) =
protons + neutrons
-
Rules for QUANTUM #
- 1) n = shell # (1, 2, 3)
- 2) l = subshell (0, 1, 2... n-1)
- s p d
- 3) Ml = orbital #
- s 0 (0)
- p 1 (-1, 0. 1)
- d 2 (-2, -1, 0, 1, 2)
- 4) Ms = spin # (+1/2, -1/2)
- --> 1. e- fill lowest to highest E
- --> 2. e- fill singly b4 pairing
-
Anomalies:
Cr
Cu
- (24e) Cr: [Ar] 4s2 3d4
- (29e) Cu: [Ar] 4s2 3d9
- instead you want
- Cr: [Ar] 4s1 3d5
- Cu: [Ar] 4s1 3d10
-
Radioactive Decay Story...
[story --> rent a boat, says can only hold 10 pep, having a party add more pep, boat sinks can't hold, have to push pep off]
-
Radioactive Decay
- nucleus:
- STRONG NUCLEAR FORCE ---> have to counteract the repulsive forces of protons- when SNF can't cope (big atoms/molec)... radioactive decay(get rid of protons)
-
3 situations of radioactive decay:
- 1) high p:n ratio
- 2) high n:p ratio
- 3) too many p + n
-
α - decay
"helium released"
-
β- decay
"neutron changes to proton"
-
β+ decay
"proton changes to neutron"
(commonly called positron emission)
-
electron capture:
"electron into nucleus"
-
visible light spectrum
⎮-----⎮-----⎮---R--------V---⎮-----⎮ -----⎮
radio -- microwave -- infrar red --- R----- V --- UV --- XRay --- gamma
- E-------------->
- f -------------->
- <--------------λ
-
ϒ (gamma) decay
"excited st going to ground st"
-
Atomic radius:
- ↓ PT, ↑ AR (add shell)
- → PT, ↓ AR (attractive force)
-
Ionization E:
(E removing electron) ➚
- ↓PT, IE↓ (has to counteract attractive force)
- → PT, IE ↑ (do not want to loose e-)
[attractive F, don't want to give up, eg Cl]
-
Electron Affinity:
- (energy assoc adding electron)
- [high EA = large -ve E]
(WHO WANTS E- MORE)
ex. Cl is closer to nuc & less shell than I)
-
Electronegativity:
FONClBrISCH (order of electroneg) ➚
F > O > N > Cl > Br > I > S > C > H
-
Acidity:
- ↓ PT, acidity ↑
- → PT, acidity ↑
= strong acid ➘
-
Intramolecular:
(w/in molec)
(chem bonds, chem properties)
-
Covalent:
- share electrons e-
-
Polar:
- [intramolecular -- covalent]
-
Coordinate Covalent:
- [intramolecular -- covalent]
-
Ionic:
- [intramolecular]
- - both stable w/ full valence shells & near each other "electrostatic attraction"
- - relates to strength (weak bond; don't have to be next to one another)
- - not shared charge charge reaction
-
Metallic:
- [intramolecular]
- "moving sea of e-"
-
Network Solids:
- [intramolecular]
- ex - diamond
-
Intermolecular Forces:
"between molecules"
- [increase in strength]
- - Ion-dipole b.
- - H-bond
- - Dipole-Dipole
- - Dipole Induced Dipole
-
-
H bond:
- (special dipole-dipole)
- (1) F, O, N (H attach to)
- (2) H bond to F, O, N
-
Dipole-Dipole:
- "polar"
-
-
Van Der Waals Force (3):
- (1) H-bond
- (2) Dipole-Dipole
- (3) dipole Induced Dipole
-
Induced Dipole Induced Dipole:
- "London Dispersion Forces"
- - dipole moment when charges are not distrib evenly
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