Physics 30
Learner Assessment
Data Sheets of
Constants
Equations
Periodic Table of the Elements
We have completed the content of the Physics 30 Course:
The last content covered was ____________________________________________.
centi.............. c...............10 –2
Index of Refraction of Air.. n = 1.00
0
1
2
3
4
5
6
7
8
9
Uniform motion (Fnet = 0)
→
Accelerated motion (Fnet ≠ 0)
→
Uniform circular motion (Fnet is radially inward)
Work-energy theorem
Conservation of momentum
Conservation of energy
Conservation of mass-energy
Conservation of charge
Conservation of nucleons
Wave-particle duality
→
Physics Principles
Atomic Mass Unit.............. u = 1.66 × 10 –27 kg
Speed of Light in Vacuum.. c = 3.00 × 10 m/s
Planck’s Constant............... h = 6.63 × 10 –34 J.s
h = 4.14 × 10 –15 eV.s
8
tera............... T..............1012
giga............... G..............10
9
mega ............ M.............106
kilo............... k...............103
hecto . .......... h...............102
deka ............. da.............10
1
deci............... d...............10
milli.............. m..............10 –3
Electron Volt...................... 1 eV = 1.60 × 10 –19 J
–1
micro............ µ..............10 –6
9
C
Coulomb’s Law Constant... k = 8.99 × 10 N.m2/C2
nano.............. n...............10
pico............... p...............10 –12
Mass of Earth..................... Me = 5.97 × 1024 kg
Elementary Charge............ e = 1.60 × 10
femto............ f...............10 –15
Radius of Earth.................. re = 6.37 × 106 m
–9
atto .............. a...............10 –18
Gravitational Constant....... G = 6.67 × 10 –11 N.m2/kg2
–19
Exponential
Prefix
Symbol
Value
Acceleration Due to Gravity ​_›
Near Earth.......................... ​a​ ​g ​= 9.81 m/s2
| |
Prefixes Used with SI Units
Constants
PHYSICS DATA SHEET
Charge
< 50 eV/c2
< 50 eV/c2
0.511 MeV/c2
0.511 MeV/c2
Mass
1.67 × 10 –27 kg
1.67 × 10 –27 kg
9.11 × 10 –31 kg
6.65 × 10 –27 kg
Mass
2 ​ e
Up quark, u............................ +​ __
~5 MeV/c2*
3
__
2 ​ e
Anti‑up antiquark, ​u​.............. –​ __
~5 MeV/c2*
3
1  ​ e
Down quark, d....................... –​ __
~10 MeV/c2*
3
__
1  ​ e
Anti‑down antiquark, ​d​......... +​ __
~10 MeV/c2*
3
*Current models seem to suggest a significantly lower
mass of these quarks than those in this table.
​__​
Electron antineutrino, ​ν​........ 0
Electron neutrino, ν............... 0
Positron................................. +1e
Electron................................. –1e
First-Generation Fermions
Charge
Neutron.................................. 0
Proton.................................... +1e
Electron................................. –1e
Alpha Particle........................ +2e
Particles
T
​_
r
Gm ​
​ g​ ​ ​ = ​ ____
2
​__› r
F
​
​
​_›
g
g​
​ = ___
​ m ​
_
​›
W ​
P = ​ __
t
W = ∆E
W = ​F ​
​ |​​d ​
​ |​cosθ
​_›
| |
​_
1 ​ kx2
Ep = ​ __
2
Ep = mgh
​_›
​_›
F ​
​ ∆t = m∆​v ​›
​_›
1 ​ mv2
Ek = ​ __
2
​_›
p​
​ = m​v ​
Momentum and
Energy
F ​
​ s = – k​x ​›
_
​›
​F​ ​f ​ = µ ​F​ ​N ​
​__›
||
| |
​__›
| |
| |
| |
T
2
​_›
​ a​ ​c ​ = __
​ vr ​ = _____
​ 4π 2 r ​
2
Gm1m2
​F​ ​g ​ = ​ _______
​
2
​__›
)
vf2 = vi2 + 2ad
(
​_›
​_›
​_› 2
1 ​ ​a​
d ​
​ = v ​
​ ft – ​ __
t
2
​_›
​_›
​_›
v​ ​f + v​ ​i
d ​
​ = ​ ______
​
​  ​t
2
​ ​net
​_› F
a​
​ = ​ ____
m​
​__›
Dynamics
​_›
| |
2πr ​
​v​ ​c ​ = ​ ____
​_›
​_
​_
d ​
​ = ​v ​›it + __
​ 1 ​ ​a​›t 2
2
​_›
∆​v ​› ​
a​
​ ave = ​ ___
∆t
​_
​_›
v ​
​ ave = ___
​ ∆d​ ​​
∆t
​_›
Kinematics
EQUATIONS
__
)
xd ​
λ = ​ ___
nl
Ek
max
= qeVstop
W = hf 0
Atomic Physics
|​E ​
​ |​ = ___
​ ∆V​
∆d
​_›
()
⊥
​__›
hc ​
E = hf = ​ ___
λ
n
1
N = N0​​ __
​  ​  ​​ ​
2
​__›
​ ​ ​m
​F​ ​m ​ = Il⊥​B
​ ​  ​
​__›
| | ||
|F |​ = qv ​|B ​ ​ |​
_
​›
_​ _›
F​ ​
E ​
​ = ___
​  qe ​
r
q
I = ​ __t ​
|
kq
​|E ​
​ |​ = ​ ___2 ​
r
​_›
​_
∆E ​
∆V = ​ ___
q
|
2
λ2
v
λ
__
​ v1 ​ = ___
​  1 ​
›
kq1q2
​F​ ​e ​ = ​ ______
​
2
​__›
d sin ​
θ
λ = ​ ______
n
1
n2
​ ___
n  ​ =
sinθ1
_____
​
​ =
sinθ2
di
do
f
do
– di
​ ____ ​
__
​ 1 ​ = ___
​ 1  ​ + ___
​ 1 ​
h
m = ​ ___i  ​ =
ho
Electricity and Magnetism
(
f = ​ ______
​  v  ​  ​fs
v ± vs
v = fλ
1 ​
T = ​ __
f
√
T = 2π ​ __
​ gl  ​ ​
___
T = 2π​√__
​ m ​ ​
k
Waves
h
∆λ = ​ ___
mc ​(1 – cosθ)
E = pc
Circle = 2π r
Circumference
Circle = π r 2
1 ​ ab
Triangle = ​ __
2
Rectangle = lw
Area
y = mx + b
∆y
m = ​ ___ ​
∆x
Line
y: [ymin, ymax, yscl]
x: [xmin, xmax, xscl]
Graphing Calculator Window Format
c2 = a2 + b2 – 2ab cos C
b  ​ = ​ _____
c  ​
_____
​  a  ​ = ​ _____
sin A
sin B
sin C
c 2 = a2 + b2
opposite
tanθ = ​ _______ ​
adjacent
adjacent
cosθ = ​ __________ ​
hypotenuse
opposite
sinθ = ​ __________ ​
hypotenuse
Trigonometry and Geometry
h​
p = ​ __
λ
∆E = ∆mc2
Quantum Mechanics and Nuclear Physics