Physics 30 Dec 2000 Diploma Exam

# 60 10 electron volt 2 2 symbol 3 6 9 12 deci

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Unformatted text preview: .....10 –1 –2 milli ............. m .................10 micro ........... µ ..................10 nano ............. n ..................10 pico .............. p ..................10 Prefix Exponential Value Prefixes Used With SI Units 2 c = a + b – 2ab cos C a b c = = sin A sin B sin C k = 8.99 × 10 N.m /C Coulomb’s Law Constant.................... 2 opposite tan θ = adjacent 6 2 Re = 6.37 × 10 m Radius of Earth ................................... 9 Me = 5.98 × 10 kg Mass of Earth ...................................... 2 opposite hypotenuse adjacent cosθ = hypotenuse 24 2 N.m /kg sin θ = G = 6.67 × 10 –11 2 ag or g = 9.81 m/s or 9.81 N/kg Trigonometry and Vectors Gravitational Constant ........................ Acceleration Due to Gravity or Gravitational Field Near Earth ............ Gravity, Electricity, and Magnetism CONSTANTS PHYSICS DATA SHEET Fold and tear along perforation. Symbol 2 R deka ............ da ................10 hecto ........... h ..................10 kilo .............. k ..................10 mega ........... M ................10 giga ............. G .................10 1 2 3 6 9 12 Exponential Value tera .............. T .................10 Prefix Ry = R sin θ Rx = R cos θ Rx Ry 2 Rx + Ry tan θ = R= For any Vector Tear-out Page 2πr T 2 2 2 2 P= ∆E W = t t W = ∆E = Fd cos θ 12 Ep = kx 2 Ep = mgh W = Fd 2 1 mv 2 T 4π mr 2 2 mv r r Gm1 r Gm1m2 2 v r Ek = Fc = Fc = g= Fg = c a= vf = vi + 2ad 2 &amp; &amp; 1&amp;2 d = vf t – at 2 &amp; &amp; &amp; vf + vi d = 2 t &amp; &amp; p = mv Momentum and Energy &amp; &amp; Fs = – kx Ff = µFN g &amp; &amp; F = mg &amp; &amp; F∆t = m∆v &amp; &amp; F = ma Dynamics v= Kinematics &amp; &amp; d vave = t &amp; &amp; v – vi &amp; a= f t &amp; &amp; 1&amp;2 d = vi t + a t 2 EQUATIONS m k hc λ = qVstop E = hf = k max E W = hf 0 hf = Ek max + W Atomic Physics λ1 λ = l; 1 = l 2 4 v = fλ 1 f T = 2π T= l g T = 2π Waves and Light xd nl hi – di = h0 d0 2 E1 1 2 N = N0 2 n 1 rn = n r 1 En = n 1 1 1 = RH 2 – 2 λ n ni f 1 1 1 = + f d 0 di m= d sinθ λ= n λ= sinθ1 v λ n = 1= 1= 2 sinθ 2 v2 λ2 n1 2 h λ p= r 2 kq1q2 ∆E q I eff = 0.707 I max 1 1 1 1 = + + R R1 R2 R3 R = R1 + R2 + R3 V= &amp; V E= d &amp; kq E= 1 2 r &amp; &amp; F E= e q Fe = q t = Vs Vp = Veff = 0.707 Vmax Ns Np V = lvB⊥ Fm = qvB⊥ Fm = IlB⊥ I= P = IV V = IR Is Ip hf ; E = pc c p= Electricity and Magnetism E = mc Quantum Mechanics and Nuclear Physics 21 Sc 22 Ti 23 V 24 6 Cr VIB 25 7 Mn VIIB 26 Fe 8 27 9 VIIIB 10 Atomic number VIIIB 3 Key IB 11 Li 12 Symbol IIB 5 13 IIIA B 6 14 IVA C 7 15 VA N 8 16 VIA O 9 17 VIIA F 18 2 He VIIIA or O (226.03) radium francium Ra (223.02) Fr 88 cesium 87 137.33 barium 132.91 Ba 56 55 Cs 87.62 strontium Sr rubidium Rb 38 85.47 37 40.08 calcium Ca potassium K 20 39.10 19 24.31 Mg magnesium 12 sodium Na 22.99 11 9.01 beryllium lithium Li 6.94 3 44.96 Y 89 -103 57-71 yttrium 88.91 39 scandium Zr Hf Nb Ta tantalum 180.95 73 niobium 92.91 41 vanadium 50.94 (98.91) Tc W tun...
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## This note was uploaded on 01/14/2014 for the course PHYSICS Physics 30 taught by Professor Quinlan during the Fall '09 term at Centennial High School.

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