The lower the frequency, the larger mass and longer length,
The higher the frequency, the smaller the mass, and shorter the length.
The amplitude of a pendulum is the distance between its equilibrium point and the farthest point that it reaches during each oscillation.
amplitude
Frequency is a metric for expressing the rate of oscillation in a wave. For planar and longitudinal waves, this often expressed in oscillations-per-second or Hz. Angular frequency used for expressing rates of rotation, similar to revolutions-per-second, and is usually expressed in radians-per-second. It can be thought of as a wave with a constant amplitude where the amplitude rotates in a circle in space. The two differ by factor of 2*Pi. Omega (angular frequency) = 2*Pi*f(frequency in Hz)
There's no mathematical connection between amplitude and frequency. Knowing one doesn't make it possible to calculate the other. High-pitched sounds can be loud or soft. So can low-pitched ones. It's a little bit like asking: If the car drove 240 miles today, what color is it ?
simple pendulum center of mass and center of oscillation are at the same distance.coupled pendulum is having two bobs attached with a spring.
The amplitude of a pendulum is the distance between its equilibrium point and the farthest point that it reaches during each oscillation.
Low frequency = low pitch = long waves
so...saying about acoustic waves for e.?amplitude influences loudness and frequency - pitch of tone
Yes. There's no connection between frequency and amplitude.
amplitude
There's no connection between amplitude and frequency. Either one can change, and often does, with absolutely no effect on the other.
There's no connection between amplitude and frequency. Either one can change, and often does, with absolutely no effect on the other.
In an ideal pendulum, the only factors that affect the period of a pendulum are its length and the acceleration due to gravity. The latter, although often taken to be constant, can vary by as much as 5% between sites. In a real pendulum, the amplitude will also have an effect; but if the amplitude is relatively small, this can safely be ignored.
Not at all. There's no direct relationship or connection between frequency and amplitude.
Velocity of wave = frequency * wavelength (the universal wave equation does not involve amplitude) There is no direct relationship between the amplitude and the wavelength of a wave and therefore if the amplitude increases the wavelength will not necessarily change.
Actually the amplitude depends on your modulator by which you generated your signal you can pick any amplitude you want but here is the formula for frequency modulated signal: Ac here decide the amplitude of the signal and you can see that it is not related to the frequency component of your signal.
Assuming an idealised pendulum with a small amplitude, both are examples of simple harmonic motion. That is, the second derivative of the curve is directly proportional to its displacement but in the opposite direction. If the amplitude (swing) of the pendulum is large or if the majority of its mass is not oi the "blob" the relationship is only approximate.