Circular harmonic motion
The factors that affect the stability of a pendulum with an oscillating support include the length of the pendulum, the amplitude of the oscillations, the frequency of the oscillations, and the mass of the pendulum bob. These factors can influence how smoothly the pendulum swings and how well it maintains its motion.
A stopwatch or a timer can be used to measure the time taken for the pendulum to make 20 oscillations. Start the timer when the pendulum starts swinging and stop it when it completes 20 oscillations to determine the time elapsed.
The four main factors that affect a pendulum are its length, mass of the pendulum bob, angle of release, and gravity. These factors determine the period and frequency of the pendulum's oscillations.
Increasing the mass of a pendulum will decrease the frequency of its oscillations but will not affect the period. The amplitude of the pendulum's swing may decrease slightly due to increased inertia.
The ideal model of a simple pendulum assumes the pendulum mass is concentrated at a single point, the string or rod is massless and frictionless, and the pendulum moves in a vacuum with no air resistance. Additionally, it assumes small amplitude oscillations, and the only force acting on the pendulum is gravity.
no force does not effect the pendulum as it depends upon the oscillations.
The factors that affect the stability of a pendulum with an oscillating support include the length of the pendulum, the amplitude of the oscillations, the frequency of the oscillations, and the mass of the pendulum bob. These factors can influence how smoothly the pendulum swings and how well it maintains its motion.
A stopwatch or a timer can be used to measure the time taken for the pendulum to make 20 oscillations. Start the timer when the pendulum starts swinging and stop it when it completes 20 oscillations to determine the time elapsed.
Answering "A simple 2.80 m long pendulum oscillates in a location where g9.80ms2 how many complete oscillations dopes this pendulum make in 6 minutes
I assume you want to get the pendulum's period. If you record a greater amount of oscillations, you will reduce the error - since if you manually measure time, you are likely to get an error of a few tenths of a second.
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The four main factors that affect a pendulum are its length, mass of the pendulum bob, angle of release, and gravity. These factors determine the period and frequency of the pendulum's oscillations.
For relatively small oscillations, the frequency of a pendulum is inversely proportional to the square root of its length.
R. W. Nash has written: 'A digital instrumentation package for an improved torsion pendulum' -- subject(s): Damping (Mechanics), Digital counters, Metals, Testing, Torsion pendulum, Vibration
Increasing the mass of a pendulum will decrease the frequency of its oscillations but will not affect the period. The amplitude of the pendulum's swing may decrease slightly due to increased inertia.
If you know the time, t, taken for N (complete) oscillations then the period, P, is P = t/N
Vibration refers to mechanical oscillations about an equilibrium point. The oscillations may be periodic such as the motion of a pendulum or random such as the movement of a tire on a gravel road.sorce-wikipedia