The lenght of time a wave has traveled or in more intelligent words The Fetch of a wave is the distance over open water over which the wind has blown (further it has travelled, the larger the wave.)
The fetch of a wave is the distance over which the wind blows without obstruction, generating waves on the water surface. A longer fetch typically results in larger and more powerful waves due to more time for the wind to transfer energy to the water. Fetch plays a critical role in wave height and energy.
The size of a wave is primarily determined by the speed and duration of the wind that generates it. Additionally, the fetch, which is the distance over water that the wind blows in a continuous direction, also influences wave size. The longer the fetch and stronger the wind, the larger the waves produced.
The height of a wind-formed wave can be affected by factors such as wind speed, duration, and fetch (distance over which the wind has blown). Stronger winds over longer distances (fetch) can create larger waves, while shorter fetch or shorter duration of wind may result in smaller waves. The interaction between wind and the ocean surface also plays a role in wave height.
The height of a wave is the vertical distance between the wave's crest and trough. It is typically measured in meters, from peak to trough. The height of a wave can vary depending on factors such as wind speed, duration, and fetch.
The three main factors that affect the size of a wave are the speed and duration of the wind that creates the wave, the distance over which the wind blows (known as the fetch), and the depth of the water.
The three factors affecting wave energy are the speed of the wind, the duration of time the wind has been blowing (fetch), and the distance over which the wind has been blowing (fetch length). These factors collectively determine the energy transfer to the water surface, leading to the generation of waves.
The Fetch of a wave is the distance over open water over which the wind has blown (further it has travelled, the larger the wave.)
1. Wind strength and duration 2. Fetch of the wave
The distance that wave-producing winds blow over a continuous body of water can vary widely depending on the strength and duration of the winds. Generally, the longer and stronger the winds blow, the larger the distance over which waves can be generated. This distance can range from a few hundred meters to hundreds of kilometers.
Fetch, often called the fetch length, is a term for the length of water over which a given wind has blown. It is used in geography and meteorology and is usually associated with coastal erosion. It plays a large part in longshore drift as well. Fetch length along with the wind speed (or strength) determines the size of waves produced. The longer the fetch length and the faster the wind speed, the larger and stronger the wave will be. For example, the winds which travel from the East Coast of the United States and hit the west coast of Ireland would have an extremely large fetch and would produce very large waves if the wind speed was also high. The fetch length determines the power and energy of the wave. Additionally, if the winds are blowing in the same direction during the wave's lifetime, the wave will in turn be stronger. If a fetch is very large, then the wave will be very large and vice versa. The fetch is related to the orbit of the wave. The longer the wind drags along the sea the more energy the wave will have which will make the wave a destructive wave.
The size of a wave is primarily determined by the speed and duration of the wind that generates it. Additionally, the fetch, which is the distance over water that the wind blows in a continuous direction, also influences wave size. The longer the fetch and stronger the wind, the larger the waves produced.
I Belen e they get taller because as the front of the wave hits the shore, it loses energy and slows down, while the back of the wave still has more speed and momentum. The back of the wave catches up with the front, compressing a wide wave into a tall wave. As the wave gets taller while decelerating, naturally the top of the wave falls foreword.
The height of a wind-formed wave can be affected by factors such as wind speed, duration, and fetch (distance over which the wind has blown). Stronger winds over longer distances (fetch) can create larger waves, while shorter fetch or shorter duration of wind may result in smaller waves. The interaction between wind and the ocean surface also plays a role in wave height.
Wind speed Length of time the wind has blown over a given area Distance of open water that the wind has blown over; called fetch
1. wind speed, 2. length of time the wind has blown, 3. fetch
Mainly the strenght of the wind passing over the water. Also the fetch, or distance that a wave has to develope. Finally, the beach profile will also effect the size and how the wave breaks.
97 feet
The size of a wave is primarily influenced by the strength and duration of the wind that generates the wave, as well as the distance over which the wind blows (fetch). Other factors, such as the water depth and seafloor bathymetry, can also affect the size and shape of a wave as it travels.