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The physical parameters of a simple pendulum include (1) the length of the pendulum, (2) the mass of the pendulum bob, (3) the angular displacement through which the pendulum swings, and (4) the period of the pendulum (the time it takes for the pendulum to swing through one complete oscillation).
decrease by a factor of 4
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Mass, release point, length, gravity
A 2-meter pendulum at sea level has a period of 2.84 seconds.
You mean the length? We can derive an expression for the period of oscillation as T = 2pi ./(l/g) Here l is the length of the pendulum. So as length is increased by 4 times then the period would increase by 2 times.
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The physical parameters of a simple pendulum include (1) the length of the pendulum, (2) the mass of the pendulum bob, (3) the angular displacement through which the pendulum swings, and (4) the period of the pendulum (the time it takes for the pendulum to swing through one complete oscillation).
multiply the length of the pendulum by 4, the period doubles. the period is proportional to the square of the pendulum length.
decrease by a factor of 4
Life's Pendulum - 1917 was released on: USA: 4 February 1917
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The formula for the frequency of the pendulum is w2=g/l if you wish to double your period w1, you want to have w2 = 2*w1 The needed length of the pendulum is then l2 = g / w22 = g /(4 * w12) = 0.25 * g / w12 = 0.25 * l1 l2 / l1 = 1/4 You must shorten the length of the pendulum to 1/4 of its former size.
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The equation for the length, L, of a pendulum of time period, T, is gievn byL = g(T2/4?2),where g is the acceleration due to gravity. So, for a pendulum of time period 4.48 sec, the length of the pendulum is 4.99 metres (3 s.f).
These are some of the main factors: 2, 3, 4, 5, 6, 18, 30, 110, 140, 168, 280, 420
g = (4(Pi)2*l)/t2where l, is the pendulum length and t,is the periodic time.