In an earth satellite the net acceleration due to the gravity is zero so the bob of the pendulum will be weightless and it will not oscillate. Thus the pendulum clock cannot be used in an earth satellite.
Can pendulum clocks be used in artificial satellite explain?
Pendulum can’t work inside a satellite because in satellite time period of oscillation of simple pendulum becomes infinite. It is because in satellite there is no gravity and time period of pendulum depends upon gravity.
What will happen if a pendulum clock is brought inside an artificial satellite?
If a pendulum clock is brought inside an artificial satellite, then the time period of the clock becomes. … In summer season, the effective length of the pendulum clock is lengthened (increased length), so its time period is also increased and consequently the clock becomes slow.
Can a simple pendulum experiment be conducted inside a satellite?
No, the simple pendulum experiment cannot be conducted inside a satellite as the acceleration due to gravity is zero in space and the time period becomes infinity.
When a pendulum stops where does the energy go?
Once the weighted end of the pendulum is released, it will become active as gravity pulls it downward. Potential energy is converted to kinetic energy, which is the energy exerted by a moving object. An active pendulum has the most kinetic energy at the lowest point of its swing when the weight is moving fastest.
Can a simple pendulum vibrate at the Centre of the earth?
At the centre of the earth, acceleration due to gravity g is zero. Hence the pendulum does not oscillate at all.
At what point does a pendulum swing?
Since the mass of the pendulum bob won’t change, the only way for kinetic energy to change is for the speed of the pendulum to change. Kinetic energy is highest when the velocity is the highest. This occurs at the bottom of the pendulum.
How does a pendulum work in a clock?
A pendulum clock is a clock that uses a pendulum, a swinging weight, as its timekeeping element. The advantage of a pendulum for timekeeping is that it is a harmonic oscillator: It swings back and forth in a precise time interval dependent on its length, and resists swinging at other rates.
Why does a pendulum rest?
This process is repeated as long as the pendulum oscillates. The bob does not oscillate forever. It comes to rest because air resistance resists its motion. The pendulum loses its kinetic energy to overcome this friction and stops after some time.