ACES CHEMISTRY MUST KNOW formula

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G = -nFE

G = free Gibs energy (KJ/mol) n = mol of electron transfer E = cell potential of the reaction(in volts) Faraday electron constant: 96485 C/mol 1 volt = 1J/1C

G = H - TS

Gibbs free energy equation(change, units careful)

pH = pKa + log([A-]/[HA])

Henderson-Hasselbach equation

Sgas = Kh Pgas

Henry's Law, the solubility of gas(concentration) is directly related to the pressure of the gas. S gas = concentration of dissolved gas k = Henry's Law Constant P = partial pressure of the gas

osmotic pressure = iMRT

M = molar concentration of the solute(molarity) R = ideal gas constant (0.0821 atm* L /mol*K T = temperatuer(in kelvin) i = vant hoff factor

[A]t -[A]0 = -kt

0 order reaction

delta S surr = -Hsys/T

-KJ/mol* K

ln(k2/k1) = (-Ea/R)((1/T2)-(1/T1))

-derived from Arrhenius equation

pH, pOH

-log[H+] -log[OH-]

delat E = B(1/nf^2 - 1/n1^2)

- B = -2.18 * 10 ^-18 J hydrogen emission energy equation

ln(p2/p1) = -delta H(vaportization)/R * (1/T2 - 1/T1)

- Clausius Clapeyron Equation -Temperature: (kelvin)

ln(K2/K1) = - delta H/R(1/T2- 1/T1)

- K2 and K1 -> equilibrium constant - H: change of enthalpy - R: universal gas constant -> 0.00831 kJ/mol*K

ln(p1/p2) = delta H(vaportization)/R * (1/T2 - 1/T1)

- positive equation

k = Ae^(-Ea/RT)

Arrhenius equation - Increasing Temperature, increase k constant k = rate constant A = frequency factor, a number that represents the likelihood that collisions would occur with the proper orientation for the reaction Ea = activation energy *R= universal gas constant, BUT(0.0083145 kJ/mol*K) T = temperature

delta Tb = i * Kb * m

Tb = change in boiling point i = Van't hoff factor Kb = boiling point constant(solvent) m = molality *The higher the boiling point, the stronger the attraction

delta Tf = i * Kf * m

Tb = change in freezing point i = Van't hoff factor Kf = freezing point constant(solvent) m = molality *The lower the freezing point, stronger the attraction

Ecell = Ered + Eox

cell potential Ered = reduction Eox = oxidation -higher Ered, higher reduction potential, cathode -higher Eox, higher oxidation potential, anode * Ecell > 0, spontaneous at room temp * Ecell < 0, reverse reaction is spontaneous at room temp

c = frequency x wavelength

equation for speed of light c = 2.998 *10^8 m/s 1/s m

ln([A]0/[A]t) = kt

first order reaction, concentration, k value, time

q= m * c * delta T

m = mass(g) c = unit specific heat( J/g * celsius) T = temperature in celsius q = heat

(1/[A]t) - (1/[A]0) = kt

second order integrated rate law


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