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It is a constant which is equal to the speed.

Q: What can you observe with the values of the product of frequency and wave length in the spectra?

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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 lower the frequency, the larger mass and longer length, The higher the frequency, the smaller the mass, and shorter the length.

The frequency of a pendulum is inversely proportional to the square root of its length.

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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 product of the frequency and the length of a wave yields its speed, also known as the propagation velocity. This relationship is described by the wave equation v = fλ, where v is the speed, f is the frequency, and λ is the wavelength.

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.

The product of wavelength and frequency is the speed of the wave, which is a constant value for a specific medium, such as the speed of light in a vacuum. The equation that relates wavelength, frequency, and speed is: speed = wavelength * frequency.

The frequency of a pendulum varies with the square of the length.

Frequency and wavelength of a wave are inversely related: as frequency increases, wavelength decreases, and vice versa. This relationship is described by the wave equation: speed = frequency x wavelength. In other words, for a given wave speed, if frequency increases, wavelength must decrease to maintain the same speed.

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.

In general, the relationship between length and wave frequency is inversely proportional. This means that as the length of a wave increases, its frequency decreases. Conversely, if the length of a wave decreases, its frequency increases.

The lower the frequency, the larger mass and longer length, The higher the frequency, the smaller the mass, and shorter the length.

The frequency of a pendulum is inversely proportional to the square root of its length.