Period of pendulum depends only on its length that too directly and acceleration due to gravity at that place, but inversely
But it is independent of the mass of the bob
So as length increases its period increases.
If you know the initial height and the length of the pendulum, then you have no use for the mass or the velocity. You already have the radius of a circle, and an arc for which you know the height of both ends. You can easily calculate the arc-length from these. And by the way . . . it'll be the same regardless of the mass or the max velocity. They don't matter.
use simple pendulum formula T=2pie/square root L over g(where L is the length of pendulum,T is time period,and g is gravitational acceleration normally taken as 9.81) .then square both sides to get rid of square root.answer is 1.998476789 meters which is 2.0 to two significant figures.
Friction is just resistance to movement due to sliding surfaces or to air flow. For a pendulum it will be due to two things: one the resistance in its support bearing, the other to the air resistance of the pendulum itself. Thus energy is gradually lost and the pendulum will eventually come to rest unless it gets a little kick as required, this is supplied in an old clockwork mechanism by the spring which you wind up every week or whatever.
When the bob is in the both extreme positions.
at both ends of the swing, where the bob is the highest
... dependent on the length of the pendulum. ... longer than the period of the same pendulum on Earth. Both of these are correct ways of finishing that sentence.
If you know the initial height and the length of the pendulum, then you have no use for the mass or the velocity. You already have the radius of a circle, and an arc for which you know the height of both ends. You can easily calculate the arc-length from these. And by the way . . . it'll be the same regardless of the mass or the max velocity. They don't matter.
lower
use simple pendulum formula T=2pie/square root L over g(where L is the length of pendulum,T is time period,and g is gravitational acceleration normally taken as 9.81) .then square both sides to get rid of square root.answer is 1.998476789 meters which is 2.0 to two significant figures.
It doesn't matter what unit you use to measure the physical length of the pendulum. As a matter of fact, it doesn't matter what unit you use to measure the duration of its period either. If both are at rest on the same planet, then the penduum with the longer string has the longer period. Period!
Both the width and length have been increased by 4 feet and so 9*14 = 126 square feet
The pendulum swings both ways. Pendulum exercises are used to increase your ROM after shoulder surgery.
greetings.a pendulum has both kinetic and potential energy at one point.when the pendulum is at its highest point it has potential energy.it has kinetic energy when the ball of the pendulum is right in the middle.get it?
Friction is just resistance to movement due to sliding surfaces or to air flow. For a pendulum it will be due to two things: one the resistance in its support bearing, the other to the air resistance of the pendulum itself. Thus energy is gradually lost and the pendulum will eventually come to rest unless it gets a little kick as required, this is supplied in an old clockwork mechanism by the spring which you wind up every week or whatever.
Because of both air resistance and gravity that pulls the pendulum down.
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