No. If compared to ocean waves, amplitude would be wave height, and period would be how long to next wave.
Amplitude is how loud sound is and does not change a sounds pitch. They are independent.
They superpose. Energy of the waves are redistributed to form a resultant wave with amplitude given by the summation of individual wave's amplitude. If the two waves are of same frequency, speed and amplitude and travelling in opposite direction den stationary waves are form.
The basic properties of transverse waves are: Amplitude Time Period Frequency Phase Wavelength Crest Trough
always the same
the all or none law
amplitude =7. to find the period, set 2x equal to 2∏. then x=∏=period
Amplitude = 5 Period = pi/4 radians (= 45 degrees).
For very little swings, no, the period is unrelated to the amplitude. For larger swings, however, the period increases slightly due to circular error.
They're not. The same amplitude can have high or low frequency, and the same frequency can have large or small amplitude.
Yes, the period doesn't influence or depend on the amplitude of vibrations. Tides and earthquakes have vibrations with long periods and enormous amplitude. The timing crystal in a 'quartz' wristwatch has vibrations with short period and tiny amplitude. The sound playing through a loudspeaker or a set of earbuds can sweep through the full frequency range of human hearing ... changing the period of the vibrations from 0.05 second to 0.00005 second ... while maintaining constant amplitude.
The PERIOD of a Simple Pendulum is affected by its LENGTH, and NOT by its Mass or the amplitude of its swing. So, in your case, the Period of the Pendulum's swing would remain UNCHANGED!
Amplitude, frequency/period and phase.
As long as angular amplitude is kept small, the period does not depend on the angular amplitude of the oscillation. It is simply dependent on the weight. It should be noted that to some extent period actually does depend on the angular amplitude and if it gets too large, the effect will become noticeable.
The period of a pendulum is (sort of) independent of the amplitude. This is technically true for very small, "infinitesimal" swings. In this range, amplitude does not affect period. For larger swings, however, a circular error is introduced, but it is possible to compensate with various designs. See the Related Link below for further information.
i think the answer is no the amplitude is the same but the plane of oscillation of the wave is changing.
The amplitude of a sound wave is what we perceive as volume. It is the amount of energy "carried" within each period of the wave.
i think small amplitude is best because small amplitude gives perfect time period as well as to obey SHM.