Simple Harmonic Motion
Types of Motion Periodic Motion Motion which repeats itself Intervals of Time Ex. watch, heart pumping Oscillatory Motion Motion over the same path Ex. Drive to school
Simple Harmonic Motion Periodic, oscillatory motion under the influence of a restoring force Repeated pattern – cycle Time for one cycle – period (T) # of cycles / time – frequency (f) = 1 / T Ex. Pendulum – Galileo (chandelier and pulse in church at Pisa) said they had a constant period Ex. Body on a spring – Newton
Body on Spring Restoring Force Spring – Elastic Restoring Force Can we use Galileo’s Equations? No! Acceleration not constant
Mass on Spring and Pendulum Is T dependent on amplitude? No Is T dependent on mass of bob? Not for pendulum Yes for spring How do we know this? T pendulum = 2π√(l/g) T = period, l = length, g = gravity T spring = 2π√(m/k) T = period, m = mass, k = spring constant
Pendulum Examples How would you adjust a Grandfather clock? T pendulum = 2π√(l/g) Which has a faster stride, a centipede or a dog? Shorter legs vs. longer legs Small l small T Large l large T
Spring Equations T spring = 2π√(m/k) T = period, m = mass, k = spring constant Large mass large T Small mass smaller T Hooke’s Law: F = -kx - or - k = -F / x F spring = opposite weight + x = distance stretched by spring - k = positive # in N/m or lbs/ft
F = max down v = 0 F = 0 v = max down F = 0 v = max up F = max up v = 0 F = max down v = 0 At top At bottom