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 = mv Momentum and Energy F s = – kx › _ › 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