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If the frequency of a vibrating object decreases how does the wavelength of the resulting wave change?
If the frequency of a vibrating object decreases, the wavelength of the resulting wave also decreases. This is because wavelength and frequency are inversely proportional according to the wave equation: wavelength = speed of wave / frequency. So, as frequency decreases, the wavelength will also decrease to maintain a constant speed of the wave.
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The slower an object vibrates the longer wavelength will be?
Yes, the wavelength of a wave is inversely proportional to its frequency. As frequency decreases, the wavelength increases. Therefore, if an object is vibrating more slowly, it will produce waves with longer wavelengths.
How does sound frequency change?
the frequency of a sound can change depending on how fast the source is vibrating
What happens when you double the frequency of a vibrating object?
It is a bit difficult to answer that question without knowing what vibrating object you are talking about. For example, if you double the frequency of a vibrating tuning fork, you get a higher pitch. If you double the frequency of a vibrating electron, you get a different and more energetic type of electromagnetic radiation, for example you could shift from visible light to ultraviolet light.
If the frequency of the waves produced by a vibrating object increases how does the wavelength of the waves produce change?
As all EM waves do a constant speed ('c'). If the frequency increases (i.e. the waves are more frequent) the distance between the wave peaks (wavelength) must reduce. For visible light waves, this produces a 'blue shift.'
Is a string vibrating at the fundamental frequency the length of half the wavelength?
This question can't be answered as asked. A string vibrating at its fundamental frequency has nothing to do with the speed of the produced sound through air, or any other medium. Different mediums transmit sound at different speeds. The formula for wavelength is L = S/F, were L is the wavelength, S is the speed through the medium and F is the frequency. Therefore, the wavelength depends on the speed of sound through the medium and directly proportional to the speed and inversely proportional to the frequency.
If the frequency of the waves produced by a vibrating object increases how does the wavelength of the waves produced change?
The wavelength decreases. Frequency and wavelength are inversely related.
The slower an object vibrates the longer wavelength will be?
Yes, the wavelength of a wave is inversely proportional to its frequency. As frequency decreases, the wavelength increases. Therefore, if an object is vibrating more slowly, it will produce waves with longer wavelengths.
What happens to the pitch of sound if the box is elongated?
If the box is elongated, the pitch of the sound decreases. This is because the elongation increases the length of the vibrating medium, resulting in a longer wavelength and lower frequency, which is perceived as a lower pitch.
How does sound frequency change?
the frequency of a sound can change depending on how fast the source is vibrating
What happens when you double the frequency of a vibrating object?
It is a bit difficult to answer that question without knowing what vibrating object you are talking about. For example, if you double the frequency of a vibrating tuning fork, you get a higher pitch. If you double the frequency of a vibrating electron, you get a different and more energetic type of electromagnetic radiation, for example you could shift from visible light to ultraviolet light.
If the frequency of the waves produced by a vibrating object increases how does the wavelength of the waves produce change?
As all EM waves do a constant speed ('c'). If the frequency increases (i.e. the waves are more frequent) the distance between the wave peaks (wavelength) must reduce. For visible light waves, this produces a 'blue shift.'
Is a string vibrating at the fundamental frequency the length of half the wavelength?
This question can't be answered as asked. A string vibrating at its fundamental frequency has nothing to do with the speed of the produced sound through air, or any other medium. Different mediums transmit sound at different speeds. The formula for wavelength is L = S/F, were L is the wavelength, S is the speed through the medium and F is the frequency. Therefore, the wavelength depends on the speed of sound through the medium and directly proportional to the speed and inversely proportional to the frequency.
What causes the speed frequency and wavelength of waves?
Waves are generated by some vibrating object. The frequency with which this object vibrates will be the frequency of the wave. The speed depends upon the medium through which the wave is propagated, and the wavelength then is the mathematical result of the speed divided by the frequency.
What happens to frequency if string length doubles?
If the string length doubles, the frequency of the vibrating string decreases by half. This is because frequency is inversely proportional to the length of the string.
If you triple thr frequency of a vibrating object what will happen to its period?
If you triple the frequency of a vibrating object, its period will decrease because period is inversely proportional to frequency. In other words, as frequency increases, the time it takes to complete one cycle (period) decreases.
What is planks theory?
it is a classical theory which gives us the relationship between energy and no. of vibrating particles and temperature,frequency and wavelength.
What is the waveleght of a tuningfork?
If it's vibrating in air, then the wavelength of the sound it produces is(343) divided by (the tuning fork's frequency) meters
