Motions in a circle Syllabus ● w = 2π / T [w is angular velocity] ● v = rw = 2πfr ● a = rw2 ● a = v2 / r ● F = mrw2 ● F = mv2 / r Gravitational Fields Syllabus ● ● ● ● F = Gm1m2 / r2 *g = GM / r2 Φ = -GM / r *Ep = -GMm / r Non-syllabus v2 = GM / r T2 = (4π2 / GM) r3 ● ΔΦ = GM (1/r1 - 1/r2) ● ● Temperature Syllabus ● ● ● T/K = θ/oC + 273.15 E = mcΔθ E = mL ● ● ● ● Thermodynamics Syllabus ● ● pV = nRT W = pΔV ● ΔU = q + W [U is internal energy; q is energy supplied by heating; W is work done on the system] Oscillations Syllabus ● ● ● ● ● a = -w2x x = xo sin wt [solution to previous] v = vo cos wt v = ±w √(xo2 - x2) [when v = max; x = 0] E = ½ mw2xo2 Electric Fields Syllabus ● ● F = qE E = ΔV / Δd ● ● ● ● F = Q1Q2 / (4πε0r2) E = Q / (4πε0r2) V = Q / (4πε0r) Ep = Qq / (4πε0r) = Q1Q2 / (4πε0r) Ideal Gases Syllabus pV = NkT ; k = R / NA *pV = ⅓ Nm<c2> cr.m.s. = √<c2> *EK = 3/2 kT Non-syllabus ● E = -V / d ● ● ● ● F = eV / d for an electron with charge -e F = -QV / d V=W/Q ΔV = Q / 4πε0 [1/r1 - 1/r2] Quantum Physics Syllabus ● Capacitance ● Syllabus ● ● ● ● ● ● ● ● ● ● C=Q/V W = ½ QV = ½ CV2 τ = RC x = xoe-t / RC Parallel: Ctotal = C1 + C2 + C3 + … Series: 1 / Ctotal = 1/C1 + 1/C2 + … Capacitance of a sphere C = 4πε0r ● V = Q / 4πε0r Non-syllabus ● E = hc / λ ● ● ● ● eV = ½ mv2 → v = √[(2eV) / m] f=E/h λ=c/f [for electron diffraction]: λ = 2d sin θ Magnetic Fields Syllabus ● ● ● ● F = BIL sin θ F = BQv sin θ *VH = BI / (ntq) [t = thickness] Φ = BA cos θ Non-syllabus ● ● ● ● r = mv / Be → p = Ber e / me = v / Br e / me = (2Vca) / (r2B2) E = - Δ(NΦ) / Δt Alternating Currents Syllabus ● ● ● x = x0 sin ωt Ir.m.s. = I0 / √2 Vr.m.s. = V0 / √2 E = hf [h is planck constant; f is frequency] p = E / c [p is momentum; c is speed of light] hf = Φ + ½ mv2 max λ = h / p = h / mv hf = E1 - E2 Nuclear Physics Syllabus E = mc2 ; E = c2Δm ● A = λN ● λ = 0.693 / t1/2 ● x = x0e-λt [ x can represent A, N or R - quantity left at time t] ● λ = ln(2) / t1/2 = 0.693 / t1/2 ● Medical Physics Syllabus ● ● ● Z = ρc [Z = specific acoustic impedance; c = speed of sound in material] α = Ir / I0 = (Z2 - Z1)2 / (Z2 + Z1)2 I = Ioe-µx Non-syllabus ● ● Emax = eV 1. fmax = eV / h 2. λmin = hc / eV Thickness of bone = cΔt / 2 [c = speed of sound in bone] Astronomy and Cosmology Syllabus ● ● ● ● ● F = L /(4πd2) [F is radiant flux intensity] λmax ∝ 1 / T → λmaxT = 2.9 x 10-3 mK L = 4πσr2T4 ∆λ / λ ≈ ∆f/f ≈ v / c v ≈ H0d Non-syllabus ● T0 = 1 / H0
