As genetic distance increases, the recombination frequency first increases in a linear fashion, but then levels off to a frequency of 0.5.
Frequency and distance are directly proportional the higher the frequency the more distance for the sound to dissipate th lower the frequency th shorter the distance for the sound to dissipate
Yes - the amount of absorption can depend on the frequency.
The relationship between the planet's SPEED and its distance from the Sun is given by Kepler's Third Law.From there, it is fairly easy to derive a relationship between the period of revolution, and the distance.
the planets
The inverse of frequency is the period, which is the distance between two consecutive crests. If you are given frequency (f), period = 1/f
8cm
Frequency is the number of wavelenghts passing though a given point in one second. Wavelength is the distance between two crest or troughs. The relationship between wavelenght and frequency is given by f = 1/wavelength. where f = frequency
Frequency and distance are directly proportional the higher the frequency the more distance for the sound to dissipate th lower the frequency th shorter the distance for the sound to dissipate
Easy: direct relationship, higher ptich, higher frequency (and vice-versa) lower pitch lower frequency Hard to explain more... Both are of sound waves, plus they effect how sound will travel in that higher frequencies are attenuated more rapidly than low frequency for the same distance and medium..
speed = frequency x wavelength
um Long-distance relationship?
It's a direct relationship; higher frequency gives you a higher pitch.
The relationship between frequency and wavelength is shown by the equation: v= f (lambda) where v is velocity, f is frequency, and lambda is wavelength. The wavelenth is the distance between two analogous points in the wave (ie. two peaks, or two troughs), and the frequency is the number of wavelenths per second.
What is the relationship between electrical frequency and magnetic field speed for an ac machine
scale
This is hard to explain without drawing a picture! If you imagine a wave going up and down (a bit like this.....ununun) then wavelength is the distance between the peaks or troughs (high and low points) on the wave. The frequency is how many oscillations of a wave there are in certain distance or time. So the shorter the wavelength the higher the frequency because you can fit more waves into a certain distance. So longer wavelengths have a lower frequency.
Wave speed = (Wavelength) times (frequency).