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PHYSICS-FORMULA SHEET Unit abbreviation Unit name written out Variable Measurement m m s mi/hr m/s m/s2 ------------------------------------------------------------m/s2 m Kg N N N N --------------------Kg m/s Ns m m Nm or J Nm or J Nm or J Nm or J W C N/C V A Ω meters meters seconds miles/hour meters/second Meters/second squared ---------------------------------------Meters/second squared meters kilograms Newtons Newtons Newtons Newtons -------------Kilograms * meters/second Newtons*second meters meters Newton*meter or joules Newton*meter or joules Newton*meter or joules Newton*meter or joules Watts Coulomb Newton/Coulomb Volts Amperes Ohms x or d or h x or d t s v a Δ distance displacement time speed velocity acceleration “Change in” subscript f =“Final ____” subscript i or o = “initial _____“ Acceleration due to gravity (9.8 m/s2) Range (total dx) Mass Net Force (total force) Weight Force of Friction Normal Force “mu” Coefficient of Friction momentum impulse circumference radius Kinetic Energy Potential Energy Spring Energy Work Power Charged Particle Electric Field Voltage Current Resistance f i or o g R m Fnet Fg Ff FN µ p Δp C r EK EP ES W P Q E V I R Semester 1 Speed = distance/time Golden Kinematics #2 Velocity= displacement = v = Δx = xf - xi Time Δt tf - t i or d = vt Golden Kinematics #3 Acceleration d = vit + ½ at2 vf2 = vi2 + 2ad Speed s = d/t a = Δv = vf - vi t t Golden Kinematics #1 vf = vi + at SOH CAH TOA Sinθ = o Cosθ = a Tanθ = o h h a Range Formula Pythagorean Theorem Quadratic Formula R = v2sin 2θ g a2 + b2 = c2 x = -b ±√( b2 – 4ac) 2a Vertical (Kinematics) for Projectiles Vf=Vi+at Vf2 = Vi2 +2ad dy = vit + ½ at2 Hooke’s Law Newton’s 2nd Law Mass to Weight (on Earth) Fs =k x Fnet = ma Horizontal Kinematics for Projectiles Vf=vi=v Dx = vt Force of Friction Ff =µ FN Fg = m9.8 Conservation of Linear Momentum p = m(Δv) Impulse Imp = Fnett Δp = Fnet(t) Circumference C=2πr Motion in circles speed V=2πr t Centripetal Force Fc = mv2 r Universal Gravitational Law FG=G m1m2 r2 Kinetic Energy Potential Energy Centripetal Acceleration ac = v2 r Spring Energy Momentum m1v1 + m2v2 = m1v1' + m2v2' Semester 2 EK (KE) =1/2 mv2 EP (PE) = m g h ES (SE) =1/2 kx2 Ep (PE) = m (9.8) h G = 6.67x10-11 Nm2/kg2 Work- Energy W = ΔE Work W=Fd W = F(cos θ)d Wfriction = ΔME (F and d must be in same direction) Power P = W/t Mechanical Energy MEi = MEf PEi + KEi = PEf + KEf P = W = Fd = mgd = Fv t t t (1hp=746W) Coulomb’s law Other electrostatics formulas… Electricity V= I R Fe = k Q1Q2 d2 E = kq/d2 Power P=IR Electrons = -1.6x10-19C k = 9.0 x 109 E = F/q Current I = q/ t Electrons = -1.6x10-19C
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