physical meaning of experiment of acceleration of free fallby means of the simple pendulum
Don't know whether this is right but ... The period of a pendulum is the time required for one complete cycle - a swing from right to left :)
Well, first of all, we know that the period of a simple pendulum depends on its length. You haven't mentioned any length, and that's an important clue. In this case, the length doesn't matter. A pendulum in free fall, or inside something else that is, doesn't swing. Wherever you put the bob, it just floats there. But you knew that.
if the pendulum is free to swing in any direction (not constrained to a single plane, as is the pendulum in a pendulum clock), this is called a Foucault pendulum, and each swing will be slightly offset from the previous one due to the rotation of the Earth. If you were to attach a pen to the bottom of a Foucault pendulum, over the course of time it would make a tremendously complicated spirograph pattern.
The time it takes a pendulum to complete one full cycle from one side to the other and back again is called its period. The angular distance swept by a pendulum as it swings from one side to the other is called its amplitude.
physical meaning of experiment of acceleration of free fallby means of the simple pendulum
Frictionlist pendulum is an example of the pendulum of a clock, a reversible process, free.
Don't know whether this is right but ... The period of a pendulum is the time required for one complete cycle - a swing from right to left :)
Welll u have to ur multiplication problems that is how u solve it eaasy
The pendulum swings twice as far.
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A lift in free fall is the same as a lift with no gravity (e.g. in space), i.e. accelleration due to gravity, g = 0 ms^-2. Now your intuition should tell you what's going to happen but even if it doesn't you can plug this value into your equation for the pendulum's period to find out what happens.
Released in free fall
Time period and length of a pendulum are related by: T = 2(pi)(L).5(g).5 so putting in the values and solving for g yields a result of : g = 9.70 ms-2
Well, first of all, we know that the period of a simple pendulum depends on its length. You haven't mentioned any length, and that's an important clue. In this case, the length doesn't matter. A pendulum in free fall, or inside something else that is, doesn't swing. Wherever you put the bob, it just floats there. But you knew that.
Unless it's in a ship that is accelerating, a simole pendulum will not swing in free space. If it's in a ship that's accelerating, its period will depend on the magnitude of the acceleration.
In the Pendulum,Deadly Linotype refers to the First World War.