Moles and Particles
Gas Laws
Bring the Heat/Radiation
Miscellaneous
Miscellaneous x2
100

Avogadro's number

6.022 ∙ 10²³ molecules/atoms/particles in a mole

100

Boyle's Law

PV=PV

100

Boiling Point elevation/Freezing Point Depression formula

Q= mc(delta T)

100

STP conditions

1 atm // 760 mm Hg
22.4 L/mol
6.022∙10²³ atoms/1 mol

100

Molarity formula

moles/liters


mol/L

200

Units of molar mass

grams/mole

200

Charles Law

V/T = V/T

200

Celcius to Kelvin conversion

K=C + 273

OR 

C= K - 273

200

Gamma particle

00gamma

high energy photon

200

Dilutions

MV= MV

300

Ideal Gas constant

0.0821 L atm / mol K

OR 


8.314 J / mol K

300

Dalton's Law of Partial Pressures

P1 + P2 + P3+ ... = PTotal

300

Fahrenheit to Celcius conversion

F= 1.8C + 32

OR

C=5/9(F-32)

300

percent yield formula

(experimental/theoretical) x 100%

300

1L= ________mL

1L = 1000mL

400

Density formula

Mass/Volume

400

Combined Gas Law

PV/T = PV/T

400

Alpha Particle

4He or alpha symbol

400

Equation for finding pOH from pH

pH + pOH = 14

OR

14 - pH = pOH

400

1 g = ________ kg

1 g = .001 kg

500

% error equation

](actual-exp)/actual] x 100%

500

Ideal Gas Law

PV= nRT

500

Heat of fusion/vaporization equation

Q = mHf
Q= Amount of Energy (J)
m= Mass (kg)
Hf or Hv= Heat of fusion (j/Celsius) or vaporzation

500

beta particle

0-1 beta

500

True or False: 1 cm3 = 1mL of water

True!

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