The frequency of the waves is 0.20 HZ.
Frequency = 1/period = 1/10 sec = 0.1 Hz.
That depends on what shore you're talking about, the streams that come by that shore, the earth's seismic activity and the weather. You'd have to be more specific for a numerical answer.
Divide metres by seconds. In this case, 110m/72s= 1.53 m/s.
When waves strike the shore at an acute angle, they create a phenomenon known as wave refraction. This process results in the waves bending and changing direction as they approach the coastline. The angle of incidence causes one part of the wave to reach the shallower water first, slowing it down while the rest of the wave continues at a higher speed. As a result, the waves can lead to increased erosion and sediment transport along the shore, often creating longshore currents.
It depends on the type of wave (seismic, asteroid, landslide) and how fast it is traveling into the shoreline. It also depends on any reefs or other impedence out in the ocean blocking the waves from reaching the shore. Having said that, if a 1500 foot tsunami wave approaches the East Coast unimpeded, it could potentially reach Western NY, or maybe even Ohio, or possibly further inland, definitely wiping out the entire Eastern seaboard, including NYC, Boston, Philly, and all other cites in its path.
The frequency of the wave is 0.2 Hz. You can calculate it by dividing the number of waves (6) by the time it took for them to reach the shore (30 seconds).
Frequency = 1/period = 1/10 sec = 0.1 Hz.
He is measuring the frequency of the wave. To get his answer he must divide his count by 10 to give cycles per second.
-- If the ocean waves lap the shore every 15 seconds then their frequency is 1/15 Hz.-- If the waves come every 30 seconds then the frequency is 1/30 Hz.-- If the waves come every minute (60 seconds) then their frequency is 1/60 Hz....etc.In general, the frequency of ocean waves, and any other waves, is1/the number of seconds between consecutive waves
1 wave / 8 seconds = 0.125 waves per second
period = reciprocal of frequency = 1/5 = 0.2 seconds
To estimate the speed of a wave, a person can estimate the distance the wave is from shore and then time how long the wave takes to reach the shore. For example, if a wave is one mile out and it takes one minute to reach shore, the wave is traveling at 60 miles per hour.
The duration of Down the Shore is 1440.0 seconds.
The duration of Geordie Shore is 2520.0 seconds.
The duration of The Sorrowful Shore is 1020.0 seconds.
The body of water that did not reach greek shore is the Atlantic ocean.
The duration of Ship to Shore - TV series - is 1440.0 seconds.