That's short.
(Note that the question avoids any definition of 'low' or 'high',
so any answer should suffice.)
Using the equation v=fλ, you can rearrange to get λ=v/f If the speed if low and the frequency is high, you will get a low value for the wavelength.
Nothing, as the speed of sound doesn't change (about 340 metres per second in air). If the frequency (or pitch) were to be twice as high it would simply halve the wavelength.
You can infer that it is on or near a fault line. You can also infer that a earthquake is very likely to occur there.
Of course. The wavelength and amplitude have no influence on each other.
It's called ultra high frequency, of UHF.
A wave with a high frequency has a short wavelength. The relationship between frequency and wavelength is inverse, meaning as frequency increases, the wavelength decreases. This relationship is described by the equation: speed of wave = frequency x wavelength.
A light ray is a straight line with speed c=fw. The speed c is a constant and the product of the wavelength, w and the frequency f. The frequency is f=c/w, inverse to the wavelength. If the wavelength is long the frequency is low; if the wavelength is small the frequency is high.
No, it is not possible to draw a high frequency wave with a long wavelength. In wave physics, frequency and wavelength are inversely proportional, meaning as frequency increases, wavelength decreases and vice versa. A high frequency wave would have a short wavelength.
Using the equation v=fλ, you can rearrange to get λ=v/f If the speed if low and the frequency is high, you will get a low value for the wavelength.
Low amplitude
a wave with long wavelength and high frequency.
Frequency and wavelength are inversely related: as frequency increases, wavelength decreases, and vice versa. This means that high frequency waves have shorter wavelengths, while low frequency waves have longer wavelengths. The relationship between frequency and wavelength is governed by the wave speed, which remains constant for a given medium.
When the frequency in an AC circuit is high, the wavelength is shorter. This is because wavelength and frequency are inversely proportional in electromagnetic waves. As frequency increases, the wavelength decreases.
Frequency = (speed) / (wavelength) =(18 miles per second) x (1,609.344 meters per mile) / (50 meters) = 579.4 Hz (rounded)This speed and frequency is awfully high for a water wave, but the math is the math.
Yes, that is correct. The frequency and wavelength of a sound wave are inversely related—the higher the frequency, the shorter the wavelength, and vice versa. This relationship is described by the formula: speed of sound = frequency x wavelength.
EM radiation with a wavelength of 15 cm has a frequency of 1.9987 GHz. (Giga Hertz) or close enough to 2GHz. Technically this is in the UHF (Ultra High Frequency) section of the radio spectrum which is 300MHz to 3GHz.
A wave with a high frequency has a low wavelength. Wavelength lambda and frequency f are connected by the speed cof the medium. c can be air = 343 m/s at 20 degrees celsius or water at 0 dgrees = 1450 m/s. c can be light waves or electromagnetic waves = 299 792 458 m/s. The formulas are: c = lambda x f f = c / lambda lambda = c / f