frequecy will not change
the wave length will increase
If you increase the frequency of a periodic wave, the wave length decreases proportionally.
frequency = 1/time? If frequency increases, times decreases, so the wave length decreases
increase the length of the string means decrease the tension in the string, therefore as the tension decreases the frequency will drop due to loosen of the string.
It goes down. Wavelength is inversely proportional to the frequency
the wave length will increase
If you increase the frequency of a periodic wave, the wave length decreases proportionally.
capacitance also increase
That is impossible. Speed of wave c = frequency f times wavelength λ. To have a constant speed, the frequency goes up and the wavelength goes down or the frequency goes down and the wavelength goes up.
frequency = 1/time? If frequency increases, times decreases, so the wave length decreases
increase the length of the string means decrease the tension in the string, therefore as the tension decreases the frequency will drop due to loosen of the string.
It goes down. Wavelength is inversely proportional to the frequency
it gets divided by 10; frequency = speed/wavelength; wavelength = speed/frequency
The frequency also doubles of the wave length stays the same. Remember that Velocity = (the wavelength) x (the frequency)
I believe that the speed will remain constant, and the new wavelength will be half of the original wavelength. Speed = (frequency) x (wavelength). This depends on the method used to increase the frequency. If the tension on the string is increased while maintaining the same length (like tuning up a guitar string), then the speed will increase, rather than the wavelength.
When you shorten the wave length, you increase the amplitude.
No. the wave length decreases as the frequency of an energy wave increases and vise versa. We acyually are learning thatin my 8th grade science class.