Solve by treating tower as a cantilever beam and lumping some of the tower mass at the top. First find the deflection of the tower, from this find the stiffness. The lowest natural frequency is sqrt(k/m), where m is the mass at the top of the tower plus the 0.23mass of the tower that can be lumped at the end.
i dunno but i rele wanna no too. is there such thing that can pick up the frequency or something????
Any object in absence of external force vibrates with it's natural frequency. When the frequency of the external forced vibration matches the object's natural frequency, we say that resonance has occurred. In this situation the amplitude of the object's oscillation becomes larger. How much larger depends on the amplitude of the forced vibration.
To find (wavelength): Divide (speed) by (frequency). To find (frequency): Divide (speed) by (wavelength).
Wavelength times frequency is the speed. To know the wavelength, you have to divide the speed by the frequency of the light.
You need to know the photon's frequency or wavelength. If you know the wavelength, divide the speed of light by the photon's wavelength to find the frequency. Once you have the photon's frequency, multiply that by Planck's Konstant. The product is the photon's energy.
i dunno but i rele wanna no too. is there such thing that can pick up the frequency or something????
You can find turbine parts on eBay. You can also purchase certain turbine parts on amazon.com.
no
The best places to find used turbine parts would be the classified ads at online forums or auction sites.Calltru.com is one specialized site where you can find all sort of turbine resources.
Transmit RF frequency subtract to the Receive frequency
find the frequency before finding the percent total -_- :)
Any object in absence of external force vibrates with it's natural frequency. When the frequency of the external forced vibration matches the object's natural frequency, we say that resonance has occurred. In this situation the amplitude of the object's oscillation becomes larger. How much larger depends on the amplitude of the forced vibration.
Allele frequency is stable
To find (wavelength): Divide (speed) by (frequency). To find (frequency): Divide (speed) by (wavelength).
Frequency = (speed) / (wavelength)
The period is the reciprocal of the frequency.
In order to find my favorite radio station, I had to find the right frequency.