There's no relationship between the length of the pendulum and the number of swings.However, a shorter pendulum has a shorter period, i.e. the swings come more often.So a short pendulum has more swings than a long pendulum has in the same amountof time.
A pendulum swings as far out as you care to set it going, irrespective of length.
A shorter pendulum will make more swings per second. Or per minute. Or whatever.
For very little swings, no, the period is unrelated to the amplitude. For larger swings, however, the period increases slightly due to circular error.
The pendulum swings twice as far.
The speed of the block is 23.6 m/s. This can be calculated using the formula v = rĪ, where r is the radius (50 cm) and Ī is the angular velocity (50 rpm converted to radians/s). The tension in the string will be equal to the centripetal force acting on the block, which can be calculated using the formula T = mv^2/r.
The length of the string has nothing to do with the number of swings. Itdetermines the time that each swing takes. That has no connection withthe number of swings, unless you're in a hurry and can't wait around.
At the highest point of its swing, the string tension and the force of gravity acting downwards will be the only forces on the rock. The tension force will point downward and the gravitational force will point towards the center of the circle.
the legth of the string. the longer the string the longer it will swing for where as if it's really short it stops at a short time.
A simple pendulum is a mass (called the bob) attached to a string or rod of fixed length that swings back and forth under the force of gravity. The motion of a simple pendulum is periodic and follows the laws of simple harmonic motion. The period of the pendulum (time for one complete swing) depends on the length of the string and the acceleration due to gravity.
make the string longer
In a frictionless pendulum, the total mechanical energy (the sum of potential and kinetic energy) remains constant. This means that as the pendulum swings back and forth, the energy is continuously exchanged between potential and kinetic energy, but the total amount of energy remains the same.
The force applied to the swings and the length of the swing's string are variables that can affect the number of swings in a given amount of time. A stronger force or longer string can increase the speed and range of motion of the swing, potentially leading to more swings in the same time period.
You can attach any object - a small stone, for example - to a piece of string.
No. Work is force times displacement. Even though the pendulum moves, it has zero displacement in the direction of the force imparted by the string.
Dutty wine is a popular dance in Jamaica in which a girl swings her hair wildly in a circle.
There's no relationship between the length of the pendulum and the number of swings.However, a shorter pendulum has a shorter period, i.e. the swings come more often.So a short pendulum has more swings than a long pendulum has in the same amountof time.