When the length of a pendulum is increased, by any amount, its Time Period increases. i.e. it moves more slowly. Conversely, if the length is decreased, by any amount, its Time Period decreases. i.e. it moves faster.
Period remains the same.
A motion is isochronous if its period is always constant and independent of the amplitude.
Nothing, unless the centre of mass is changed, thereby altering the length of the pendulum.
Ideally, nothing. As long as the mass of the string is very small compared to the mass of the bob.
The formula for the period of the pendulum doesn't even mention the mass of the bob.
The longer the length the slower the swing, as the pendulum head has to cover a long arc.
The period of a simple pendulum is proportional to the square root of its length. So if you double its length, its period will increase by roughly 41.4 percent.
it increases
its time period is also doubled
time period remains same
The PERIOD of a Simple Pendulum is affected by its LENGTH, and NOT by its Mass or the amplitude of its swing. So, in your case, the Period of the Pendulum's swing would remain UNCHANGED!
The mass has no significant effect on the period.
If you make the simplifying assumption that everything except the bob is massless, then the mass of the bob has no effect on the period.
The length of the pendulum, and the acceleration due to gravity. Despite what many people believe, the mass has nothing to do with the period of a pendulum.
If the suspended mass is doubled, then its weight will also double. Nothing more can be predicted from the information given in the question.
The PERIOD of a Simple Pendulum is affected by its LENGTH, and NOT by its Mass or the amplitude of its swing. So, in your case, the Period of the Pendulum's swing would remain UNCHANGED!
The mass has no significant effect on the period.
The period of a pendulum is affected by the angle created by the swing of the pendulum, the length of the attachment to the mass, and the weight of the mass on the end of the pendulum.
The period of a simple pendulum is independent of the mass of the bob. Keep in mind that the size of the bob does affect the length of the pendulum.
The period is independent of the mass.
what happens if the kinectic energy if the mass doubled
In a simple pendulum, with its entire mass concentrated at the end of a string, the period depends on the distance of the mass from the pivot point. A physical pendulum's period is affected by the distance of the centre-of-gravity of the pendulum arm to the pivot point, its mass and its moment of inertia about the pivot point. In real life the pendulum period can also be affected by air resistance, temperature changes etc.
If you make the simplifying assumption that everything except the bob is massless, then the mass of the bob has no effect on the period.
The length of the pendulum, and the acceleration due to gravity. Despite what many people believe, the mass has nothing to do with the period of a pendulum.
According to the mathematics and physics of the simple pendulum hung on a massless string, neither the mass of the bob nor the angular displacement at the limits of its swing has any influence on the pendulum's period.
Yes. Given a constant for gravity, the period of the pendulum is a function of it's length to the center of mass. In a higher gravity, the period would be shorter for the same length of pendulum.
Not in the theoretical world, in the practical world: just a very little. The period is determined primarily by the length of the pendulum. If the rod is not a very small fraction of the mass of the bob then the mass center of the rod will have to be taken into account when calculating the "length" of the pendulum.