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19 Cards in this Set

  • Front
  • Back
Electric Potential (V)
+(kq)/r
+W/q
+Capacitor: E*d
Electric Potential Energy (U)
+q x V
+(kqQ)/r
Electric Field (E)
+(F/q)
+(k*q)/r2
+Capacitor: (v/d)
Capacitance
Q/V
(kEoA)/d
Energy Stored in a Capacitor
U= 1/2QV; 1/2CV2; 1/2Q2C
Convex
Divergin Lenses
Virtual, upright, reduced
Concave
Converging Lenses
If S>F; real, inverted
S>2F; reduced
Nerst Equation
change in E = E* - (RTlnQ)/nF
Bouyant Force=
pgV
density of fluid, gravity, volume of object
Doppler Effect f'=
f(v+-Vd)/(V+-Vs)
G
=-RTlnKeq
V=
r*w w=angular frequency
Force from Magnetic Field
F=
qvBsin0
Force from Current Carrying Wire F=
ILBsin0
Work=change in Volume * Pressure
*If expansion
Work done by the system is (+)
Solubilities:
1.Alkali Metals, NH4
2. I, Br, Cl;
3. SO4
4. BaO CaO SrO, BaOH, CaOH, SrOH
1. Co3, PO4, S, SO3
2. Insoluble Halides; Ag Pb Hg
3. Ba, Ca, Pb, Sr
4. Metal oxides & hydroxides
Deviations from Ideal Gas Law
@ low temp & high pressures
smaller volume than expected due to lare intermolecular forces
Graham's Law
rate A/RateB
=square root of (mmB/MMA)
Van del Waals Equation
(p+(n2a/v2)+(v-nb)=NRT