Return to Set

Upgrade to remove ads

View

  • Term
  • Definition
  • Both Sides

Study

  • All (33)

Shortcut Show

Next

Prev

Flip

CHEM 1061: FINAL

Effective (Average) Mass
((%)(isotopic mass)+(%)(isotopic mass))/(100)
Flip
Nonmetals
+upper right +gain electrons when forming compounds +for covalent bonds with each other
Flip
Metaloids
along zig-zag
Flip
Ionic bonding
+transfer of 1 or more electrons from one atom to another +when in solution, ions separate (dissociate) +usually metal and nonmetal
Flip
Covalent bonding
+electron pair sharing +usually two nonmetals +not conductive +often do not dissociate in solution
Flip
Conductivity depends on:
1. Concentration of ions 2. Charge of ions (higher charge contributes more) 3. Ion mobility (harder to predict)
Flip
Molarity
M=(moles of solute)/(moles of solution) +bottom is solution, NOT solvent
Flip
Acid-base reactions
H+ from an acid is transferred to a base
Flip
Oxidation-reduction reactions
electrons transferred from one reactant to another (oxidation-loss of electrons, reduction-gain of electrons)
Flip
Oxidizing agent
agent that brings around reduction, it gets reduced
Flip
Reducing agent
it gets oxidized
Flip
Displacement reaction
one element displaces another from a compound
Flip
Combination reaction
two or more elements combine to form a compound
Flip
Decomposition reaction
compound breaks down into simpler substance
Flip
Macroscopic description
specify relationships between pressure, volume, temp, mass
Flip
Microscopic description
physical picture based on atoms and molecules
Flip
Pressure
Pressure=(force)/(area) Units: N/m^2 or Pa
Flip
1 atm
760.00 torr 1.01*10^5 Pa
Flip
Boyle's law
PV=k=constant
Flip
PV for one mole of gas at 0 degrees Celsius
22.4 L atm
Flip
Charles' Law
V=bT
Flip
Avogadro's Law
At constant T and P… V=an (a is a constant)
Flip
Ideal gas law
PV=nRT
Flip
Standard Temperature and Pressure (STP)
0ºC and 1 atm
Flip
Dalton's law of partial pressures
Ptotal = PA + PB + PC Each gas acts as if it were alone in the container
Flip
Average Kinetic Energy of one mole of an ideal gas
KEavg = (3/2)RT
Flip
maxwell-boltzman distribution curve
particles in a gas at a particular temperature show a range of values of kinetic energy which is expressed by the curve -area under curve= total number of particles The bell shaped curve flattens and shifts to the right as the temperature increases indicating at higher temperatures , more molecules are moving at higher speeds
Flip
Effusion
escape through a pinhole
Flip
Diffusion
mixing of gases
Flip
First law of thermodynamics
delta E=q+w (q=heat flow into system… into=pos, out of=neg) (w=work done on system… on system=pos, by system=neg)
Flip
State function
doesn't matter how you get from products to reactants…. change is the same
Flip
Enthalpy
H=E+PV
Flip
Hess's Law
delta H for a reaction depends only on the particular reactants and products- NOT the path between them
Flip
( 1 of 33 )
Upgrade to remove ads
Login

Join to view and access 3M+ class-specific study document.

or
We will never post anything without your permission.
Don't have an account?
Sign Up

Join to view and access 3M+ class-specific study document.

or

By creating an account you agree to our Privacy Policy and Terms Of Use

Already a member?