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.
Approx 0.0001632 seconds.
20 meters.2m/6sec = x/60secx = (2m*60sec)/6secx = 20m
If 10 crests pass you in 5 seconds, then they're sailing by at the rate of 2 crests per second. That's a frequency of 2 cycles per second which, after conversion of units, is equivalent to 2 Hz.
The full Question...Suppose 3 algorithms are used to perform the same task for a certain number of cycles. Algorithm A completes 3 cycles in one minute. Each of Algorithm B and Algorithm C respectively completes 4 and 5 cycles per minute. What is the shortest time required for each Algorithm to complete the same number of cycles?
Cycles per second is known also known as the frequency. 100 cycles per second is 100 hertz (100hz). I can't answer your question though as there is not enough information. However if it is multiple choice and there is no other info the best answer is one.
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.
no. it affects the period of the cycles.
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.
3 cycles / 12 seconds = 0.25 cycles / second, or 0.25 Hz.3 cycles / 12 seconds = 0.25 cycles / second, or 0.25 Hz.3 cycles / 12 seconds = 0.25 cycles / second, or 0.25 Hz.3 cycles / 12 seconds = 0.25 cycles / second, or 0.25 Hz.
assume the cycle starts when the pendulum is at the top left. It will go to the bottom, to the top right, to the bottom and then back to the top left. The time it takes it to do this is the period. 60 seconds in a minute and 60 divide by 15 is 4. Therefore you will have 4 cycles.
Recessions and periods of economic growth as the efficient response to exogenous changes in the real economic environment.
Period of a pendulum (T) in Seconds is: T = 2 * PI * (L/g)1/2 L = Length of Pendulum in Meters g = Acceleration due to gravity = 9.81 m/s2 PI = 3.14 The period is independent of the mass or travel (angle) of the pendulum. The frequency (f) of a pendulum in Hertz is the inverse of the Period. f = 1/T
That depends on the period of the clock's pendulum. If we assume it's one second, then it does 1800 cycles in half an hour.
Humans affect the cycles by performing certain activites. They cut down trees, pollute water bodies.
swings = cycles x time ; it is a direct relationship with time
At greater gravitational force, the frequency (the number of cycles per second) will be higher.
they die