Length of the rope, speed at which the pendulum is moving, friction between the rope and the air, the rope and its suspension point, and within the rope itself.
The period of the pendulum can be influenced by the local magnitude of gravity, by the length of the string, and by the density of the material in the swinging rod (which influences the effective length).It's not affected by the weight of the bob, or by how far you pull it to the side before you let it go.
The frequency is (36/60) per second.The period is the reciprocal of the frequency = (60/36) = 1-2/3 seconds
1 second = (1/60) 0.0166666 minutes
No number, by itself, makes it true.
I'd guess that if it swings 10 times, it makes 10 swings.
The mass of a pendulum does not affect the number of swings it makes in a given time period. The mass of the pendulum affects the period of its swing (the time it takes to complete one full cycle). The length of the pendulum and the force of gravity are the main factors that determine the number of swings it makes per unit time.
If you mean the time it takes to swing from start to finish (top to top) this is called the period and if it is the number of swings per second this is know as the frequency.
A pendulum swings due to the force of gravity acting on it as it moves back and forth. When the pendulum is released from a raised position, gravity causes it to fall and start swinging. The length of the pendulum and the angle at which it is released also affect how it swings.
The length of the pendulum, the angular displacement of the pendulum and the force of gravity. The displacement can have a significant effect if it is not through a small angle.
The period of a pendulum is the time it takes for one full swing (from one side to the other and back). The frequency of a pendulum is the number of full swings it makes in one second. The period and frequency of a pendulum are inversely related - as the period increases, the frequency decreases, and vice versa.
The frequency of a pendulum can be found by dividing the number of swings it makes in a given time period by that time period. The formula for calculating the frequency of a pendulum is: frequency 1 / time period. The time period is the time it takes for the pendulum to complete one full swing back and forth.
The frequency of a pendulum is the number of complete oscillations it makes in a given time period, usually measured in hertz (Hz). The frequency is dependent on the length of the pendulum and the acceleration due to gravity. A longer pendulum or higher gravity will result in a higher frequency.
The number of swings a pendulum makes in a second is determined by its length. A typical pendulum with a length of 1 meter will make about 1 swing per second. This relationship is also described by the formula: period = 2π√(length/g), where g is the acceleration due to gravity.
3600 t
This question needs more info: Do you mean 32 swings per minute?
Length of the rope, speed at which the pendulum is moving, friction between the rope and the air, the rope and its suspension point, and within the rope itself.