Yes. There's no connection between frequency and amplitude.
because of white guys
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.
An EM wave is caused by an energy source, such as something as big as a supernova or something as small as an electron changing in speed. I would say the change in the energy level of the energetic particle that causes the wave determines the frequency of the wave. +++ Whilst you may be right about the quantum physics, the frequency of the wave is that of the energy source, be it in a star or a radio transmitter, driving it.
amplitude . . . . . makes the sound louder or softerThe sound of an explosion across the street has higher amplitudethan the sound of a cat across the street.frequency . . . . . makes the pitch of the sound higher or lowerThe sound of a little girls voice has higher frequencythan the soundof a big man's voice.
big wave hit small things, people drown, this question doesnt deserve an answer.
This is the random process called genetic drift.
i big beef that has one big wave
In a sinusoidal wave amplitude is the height of the crest and frequency is the no. of oscillations per second.Hence,amplitude remains same for any change in frequency.-No relation.
There is absolutely no similarity between amplitude, frequency and the speed of mechanical and electromagnetic waves. All electromagnetic waves travel at the same speed. It does not matter if they have a great big amplitude, a high frequency, or whatever. An ittsie bitty gamma ray travels at the same speed as a great big radio wave. A sound wave, loud or soft travels at the same speed. The way a mechanical wave travels depends on the material.
small a
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 big stream wave is bigger than a small stream wave.
the middle wave!
AM is an abbreviation for Amplitude Modulation, while FM stands for Frequency Modulation. Both are ways of transmitting information that can be decoded, usually into sound for radios. Basically, a wave has two properties that can be changed - amplitude and frequency, as you might have guessed. Amplitude describes how big a wave is. Larger amplitude sound waves are louder, and larger amplitude light waves are brighter. Frequency describes how long it takes a wave to repeat itself, and is the distance from one peak, the high point of a wave, to another peak; or from one trough, the low point of a wave, to another trough. Amplitude modulation means changing amplitude to encode information. All AM radio stations use this. It generally encodes less information than frequency modulation, producing a lower quality sound. As a consequence, AM stations tend to be talk shows. Also, the range of AM stations is much larger than that of FM stations. Frequency modulation means changing frequency to encode information. All FM radio stations use this. It usually encodes less information than AM, and can therefore produce a better quality sound. As such, FM stations are generally used to transmit music. The range of FM stations is lower than that of AM stations. The easiest way to tell the difference between AM waves and FM waves is the frequency. AM waves tend to be low frequency for radio, while FM waves tend to be much higher. You might think that FM waves would be hard to pin down, but the change in frequency is not very large, so that different stations don't interfere with each other. There is a lot more information on the subject, but this is a quick introduction.
An EM wave is caused by an energy source, such as something as big as a supernova or something as small as an electron changing in speed. I would say the change in the energy level of the energetic particle that causes the wave determines the frequency of the wave. +++ Whilst you may be right about the quantum physics, the frequency of the wave is that of the energy source, be it in a star or a radio transmitter, driving it.
If if you think of the sound of music, the amplitude tells how loud it is and the frequency tells how high the sound is.Amplitude is the measure of a magnitude of oscillation of a wave .Frequency is the measure of number of times that a repeated event occurs per unit time.f = 1/Tf = frequencyT = time period
amplitude . . . . . makes the sound louder or softerThe sound of an explosion across the street has higher amplitudethan the sound of a cat across the street.frequency . . . . . makes the pitch of the sound higher or lowerThe sound of a little girls voice has higher frequencythan the soundof a big man's voice.
The change of amplitude affects the time of one cycle of a pendulum if the amplitude is big. In such a case, time increases as amplitude increases. In the case of a small amplitude, the time is very slightly affected by amplitude and is considered negligible.