CHEM 131 FINAL EXAM
Mass Number
# of protons + # of neutrons
Atomic Number
# of protons in the nucleus
Percent Yield
%yield= Actual/Theoretical * (100%)
Strong Electrolytes
=Strong acids and strong bases i.e. HCL and KOH
Weak Electrolytes
=all acidic and basic compounds that are not strong i.e. HF
Non-electrolytes
All molecular compounds that aren't acid/base
Ionic Radius
Cations (+)--smaller than their corresponding neutral atom Anions (-) -- larger than their corresponding neutral atom TREND- increases down a group
Density
D=m/v
Force
F=m*a
The Photoelectric Effect
If light is shined on a metal plate it kicks off the metal atoms; must be above a certain energy; intensity of light has no effect on the amount of e- kicked off
Exothermic
Negative enthalpy change (-H value) i.e. heating food in a bowl If heat flows OUT and q= - number
Law of Conservation of Mass
Neither created nor destroyed
Non-polar
No difference in electronegativity. Diatomic elements are non-polar
Endothermic
Positive enthalpy change (+H value) i.e. ice pack If heat flows IN and q=+number
Increase N:P Ratio
Positron emission, electron capture, and alpha emission
Empirical Formula
Strategy. 1. Assume you a had a 100g sample 2. Find mol of each element. 3. Divide ALL by the smallest # of mols found. 4. Multiply by a factor so all #'s are whole. (sometimes last step is unnecessary)
Electron Affinity (Eea)
TREND- irregular highest for halogens lowest for noble gases and alkaline earth metals
Ionization Energy (Ei)
TREND-Increases left to right across a period Decreases down a group
Covalent Bonding
Two atoms share e- equally between two non-metals
Mass Defect
a change in nucleon mass associated with proton/neutron binding
Solute
a chemical species which is dissolved in the solvent
Solvent
a liquid in which a chemical rxn is ran
Redox
a rxn in which electrons are transferred between two chemical species (changing the oxidation states)
Ionic Bonding
a transfer of e- from one atom to another Occur between a metal and a non-metal
Theoretical Yield
the max amount of product that can be made
Wavelength
wavelength=C/V C=2.997*10^8m/s
Paramagnetism
when there is unpaired e- it is most likely paramagnetic
Sig Figs Addition and Subtraction
can't have any more sigfigs to the right of the decimal, than the original number
Electroplating
depositing one metal on the surface of another using redox chemistry
Polar
difference in electronegativity
Law of Multiple Proportions
elements combine to form new compounds; these compounds contain elemental ratios that are small whole # ratios of one another
Lattice Energy
energy required to break the bonds in an ionic solid (measures the strength of a compound's ionic bonds)
Atomic Radii
half the distance between two identical nuclei TREND: Decreases across a period Increases down a group Decreases as Zeff increases
beta rays
highest form of energy output...1 element to the right DECREASE N:P Ratio
Soluability
how much of a solid will dissolve in a liquid
Dilution
process of preparing a less concentrated solution from a more concentrated one EQUATION: M1V1=M2V2
Specific Heat
q=mc(deltaT)
Positron emission
release of a positive electron.. add one electron
Eutrophication (FUN FACT)
release of nitrates and phosphates from fertilizer run-off
Law of Definite Proportions
samples of a pure compound will always have the same mass ratio of atoms
Precipitation
soluble ionic reactants combine to form an insoluble solid product
Sig Figs Multiply and Divide
the answer should have the least amount of sigfigs as used in part of the calculation
alpha rays
the ejection of an alpha particle from the decaying element (helium)... 2 elements to the left Atomic # increases by 2 Mass # decreases by 4
Electronegativity
ability of an atom to attract shared e- in a covalent bond TREND: Increase left to right across the period Increase up group
Resonance Structures
all forms of the compound possible to be drawn
Actual Yield
amount of product actually recovered
Neutralization
an acid (proton donor) reacts with a base (proton acceptor) to yield H2O and an ionic compound
Electron Capture
an electron absorbed.. take away one electron
Isotopic Abundance
atomic mass= (%abundance of X) (Isotopic Mass of X)
