1,500 meters = 0.9321 mile (rounded)
I don't think there is any upper limit, but the longest used in practice are in long wave radio transmission, this can be around 1500 meters
Aopprox. 300,000,000 meters (186,282 miles) per second, in vacuum. Slightly less in material media.
they reached up to thirty feet, and only ended up being like 6 feet in cali
The length of each wave is 299,792,458 meters/the frequency of the wave .
The largest recorded one was over 1700 feet tall in Lituya. See more detail in the related question below.
1.0 x 10-2 = 0.01 If the wave is a sound wave in air, then its wavelength is (343/0.01) = 34,300 meters. (about 21.3 miles) If the wave is an electromagnetic wave in space then its wavelength is (299,792,458/0.01) = 29,979,245,800 meters. (about 18,628,200 miles)
The height was estimated to be: 10 meters.
For one thing, I think you should do your own homework. But if a wave is moving 1500m/s and one wave is 1/200th of a second's worth, then the length of that wave is 1500/200 = 15/2 = 7.5 meters.
The longest used is I think long wave radio which can be up to 1500 meters
Wave Rock
With the digits written in the question, the unit should be "meters per second", not miles.A radio wave with a wavelength of 10 meters has a frequency of (300,000,000 / 10) = 30 MHz.300,000,000 meters = 186,282 milesA radio wave with a wavelength of 10 miles has a frequency of (186,282 / 10) = 18,628 Hz.
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.
Of course. The wavelength and amplitude have no influence on each other.
Aopprox. 300,000,000 meters (186,282 miles) per second, in vacuum. Slightly less in material media.
I don't think there is any upper limit, but the longest used in practice are in long wave radio transmission, this can be around 1500 meters
not a shore
Aopprox. 300,000,000 meters (186,282 miles) per second, in vacuum. Slightly less in material media.