There is no relationship. They are independent. Either of those quantities
can be changed without any effect on the other one.
Except that when considering coupling, a greater amplitude or one component will have more effect in 'changing' the period of oscillation of the other to match the one with the high amplitude (via resonance).
The amplitude of a pendulum is the distance between its equilibrium point and the farthest point that it reaches during each oscillation.
Simple harmonic motion is motion which is fully determined by its period, amplitude and phase. Noise is the name given to motion where the period is indeterminate. This may be because there is no periodicity or because the motion is a superposition of such a large number of simple harmonic motions of different periodicities that the resultant is almost aperiodic.Simple harmonic motion is motion which is fully determined by its period, amplitude and phase. Noise is the name given to motion where the period is indeterminate. This may be because there is no periodicity or because the motion is a superposition of such a large number of simple harmonic motions of different periodicities that the resultant is almost aperiodic.Simple harmonic motion is motion which is fully determined by its period, amplitude and phase. Noise is the name given to motion where the period is indeterminate. This may be because there is no periodicity or because the motion is a superposition of such a large number of simple harmonic motions of different periodicities that the resultant is almost aperiodic.Simple harmonic motion is motion which is fully determined by its period, amplitude and phase. Noise is the name given to motion where the period is indeterminate. This may be because there is no periodicity or because the motion is a superposition of such a large number of simple harmonic motions of different periodicities that the resultant is almost aperiodic.
t = 2*pi*sqrt(l/g) Where t is the period, l is the length and g is the accelaration due to gravity.
The two are not directly related. You can change the amplitude without changing the wavelength, and vice versa.The two are not directly related. You can change the amplitude without changing the wavelength, and vice versa.The two are not directly related. You can change the amplitude without changing the wavelength, and vice versa.The two are not directly related. You can change the amplitude without changing the wavelength, and vice versa.
'Y' varies between -4 and +4. Viewed as a wave, its amplitude is 4.
The amplitude of a pendulum is the distance between its equilibrium point and the farthest point that it reaches during each oscillation.
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.
I=a2
These two are unrelated.
the wave amplitude increases
Not at all. There's no direct relationship or connection between frequency and amplitude.
Because there is a relationship between the amplitude of a sound wave and loudness of a sound.
frequeny
amplitude is equal to one half of the wave height the greater the energy of the wave the greater its amplitude
The energy and the amplitude are related in such a way that, the greater the amplitude the greater is the energy. The sound pressure amplitude tells about how loud the tone will be.
From what I know from highschool/early university simple harmonic motions, I believe that there is no necessary link between loudness and frequency. Frequency (the number of times a wave completes an oscillation or cycle in one second) decides the pitch of the sound, while amplitude (the difference in height between the highest point in the sound wave and the lowest point) decides the loudness of the sound.
the wave amplitude increases