No they are independent of each other.
Amplitude is how loud sound is and does not change a sounds pitch. They are independent.
The ultraviolet light contains photons of high energy. these are able to excite the atoms. which during the process of de-excitation can emit frequencies , which are detectable by normal eye. So it depends upon frequency of light..
The pitch of a sound is the frequency, how many oscillations happen per second.In the case of a musical instrument, there may be many frequencies that happen all together. The pitch, is the fundamental frequency, the one that stands out among many.Amplitude is effectively the volume, how loud a note is. It is, by how much the air is moved, as opposed to how often.
It doesn't, from the equation E = h*f (E is energy, h is Planck's constant, f is frequency) you can clearly see that energy is a function of frequency, not amplitude (intensity). Therefore, it doesn't even matter what the relationship between stopping potential and energy is, because it will only depend on frequency, which is sufficient knowledge to answer this question.
Frequency
Amplitude doesn't depend on frequency or wavelength, so even if you know them, you have no way to calculate amplitude.
For the same reason that the height of a building doesn't depend on what color you paint it: the two things are completely independent of each other. There's no reason that frequency SHOULD depend on amplitude, so there's no need to explain why it doesn't.
Amplitude is how loud sound is and does not change a sounds pitch. They are independent.
No. Wave speed depends on frequency and wavelength, not amplitude.
In the case of sound, amplitude is related to volume or loudness.- loud sounds generate waves of larger amplitude and your ear would register sound waves of large amplitude as louder.
The ultraviolet light contains photons of high energy. these are able to excite the atoms. which during the process of de-excitation can emit frequencies , which are detectable by normal eye. So it depends upon frequency of light..
This is just the definition of "amplitude". The amplitude of a wave is the height of the wave. "Amplitude" is a fancier name for "height" when we speak about waves.
Well, I take it you mean a wave in the air, like a sound wave (alternating compressions of air). Volume of a sound wave ( a type of compressional wave) is our perception of its amplitude, the amplitude is a measure in the intensity of the waves, or the amount of variation in air pressure. Our perception of pitch varies with the frequency, or how frequently the alternations in air pressure persist.
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.
amplitude of a wave depends on the intensity and goes on decreasing from its mean position
Yes
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.