The three factors that determine the size of a wave are wind speed, wind duration, and the fetch (the distance over which the wind blows without obstruction). These factors collectively influence the energy transferred to the water surface, which in turn affects the size of the waves.
The speed and strength of the wind, the duration of time the wind has blown, and the distance the wind has traveled all influence the height of a 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.
The capital costs of wave power can vary depending on the scale and complexity of the project. In general, costs can range from $3 million to $7 million per megawatt of capacity. Factors such as site location, technology choice, and project size can all influence the overall capital costs of wave power installations.
The size of a wave depends on the wavelength, amplitude, and frequency. Wavelength refers to the distance between two successive points on a waveform, amplitude is the height of the wave, and frequency is the number of waves that pass a point in a given time.
Some factors that affect the speed of sound waves are density of medium, temperature, direction of wind, and humidity. Remember that a sound wave is just a pressure disturbance that travels through a medium by particle interactions. The nature of the medium will affect the sound waves velocity.
The speed and strength of the wind, the duration of time the wind has blown, and the distance the wind has traveled all influence the height of a 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.
Squares of prime numbers have three factors.
The prime factors of 30 are: 2, 3, and 5.
Volume, density, and gravity.
1. population to deal with in the sample 2. Location. ocation where the sample will be done 3. design. how the sample will be taken 4. result. how the outcome will be determined
there are many factors that determine structure but the most important are: 1- the level of technology 2-the size of organization operation 3- the finances available to the organization 4-the resources available to the organization 5- the strategy of the organization by khaliif sholi.kampala ,creer institute
The capital costs of wave power can vary depending on the scale and complexity of the project. In general, costs can range from $3 million to $7 million per megawatt of capacity. Factors such as site location, technology choice, and project size can all influence the overall capital costs of wave power installations.
the accounting method used
The size of a wave depends on the wavelength, amplitude, and frequency. Wavelength refers to the distance between two successive points on a waveform, amplitude is the height of the wave, and frequency is the number of waves that pass a point in a given time.
Three aspects of sound waves are frequency (pitch), amplitude (loudness), and wavelength (distance between wave peaks). These factors determine the characteristics of a sound wave such as how high or low the pitch is, how loud the sound is, and how the wave propagates through a medium.
Some factors that affect the speed of sound waves are density of medium, temperature, direction of wind, and humidity. Remember that a sound wave is just a pressure disturbance that travels through a medium by particle interactions. The nature of the medium will affect the sound waves velocity.