It is a constant which is equal to the speed.
Frequency (1/seconds) x Wave Length (meters) = Speed (meters/sec. or m/s)
wave length and frequency are the product of the wave speed, so the wave speed is a constant variable and the other two are inversely proportional the wave length increases, as the frequency decreases
The frequency of a pendulum varies with the square of the length.
The frequency of a pendulum is inversely proportional to the square root of its length.
The lower the frequency, the larger mass and longer length, The higher the frequency, the smaller the mass, and shorter the length.
Wave length and frequency affect color in a great way. If wavelength is short it is a cool color, if it is long it is a hot color.
The product of the wave's frequency and the wave's wave length is equal to the speed of propagation of the wave.
Frequency (1/seconds) x Wave Length (meters) = Speed (meters/sec. or m/s)
velocity cause Velocity= wavelength X frequency
wave length and frequency are the product of the wave speed, so the wave speed is a constant variable and the other two are inversely proportional the wave length increases, as the frequency decreases
Frequency and length, patterns of triggering, and who speaks to whom
Wavelength and frequency must be inversely proportional, because their product is always the same number . . . the wave speed.
Just multiply the frequency by the wavelength. In this case, the product will be in meters per second.
The frequency of a pendulum varies with the square of the length.
The product of (frequency) x (wavelength) is always the same number ... the wave speed. So if either one increases, the other one must decrease by the same factor, in order to keep the product constant.
The frequency of a pendulum is inversely proportional to the square root of its length.
The lower the frequency, the larger mass and longer length, The higher the frequency, the smaller the mass, and shorter the length.