A wave can get larger due to factors such as increased wind speed, longer duration of wind blowing over a consistent area, or interference from other waves causing wave energy to combine and amplify. This leads to taller wave heights and increased wave energy.
A wave with smaller amplitude will have fewer particles experiencing maximum displacement compared to a wave with larger amplitude. This means that the smaller amplitude wave will have less energy and a lower intensity than the wave with larger amplitude.
The wave for ventricular contraction is larger than the wave for atrial contraction. This is because the ventricles have thicker muscle walls and contract more forcefully in order to pump blood out to the body.
A larger wave typically contains more energy than a smaller wave. This is because larger waves have greater amplitude and move more water as they crest and break, resulting in more energy transfer.
The amplitude of a progressive wave decreases as the wave travels due to energy spreading out over a larger area. This is known as energy dissipation or spreading. As the wave propagates outward, energy is transferred to a larger region, leading to a decrease in amplitude.
The amplitude of a wave is directly related to the amount of disturbance in the water. A wave with a larger amplitude represents a larger disturbance in the water, while a wave with a smaller amplitude represents a smaller disturbance.
no, an s-wave shadow zone is way larger
the ventricular contraction wave is larger
As a seismic wave grows larger, the energy it carries remains constant. The amplitude (height) of the wave increases, but the total energy the wave carries does not change. The energy is redistributed within the wave to accommodate the larger amplitude.
The total energy in a seismic wave remains constant as the wave grows larger. The energy is spread out over a larger area, resulting in lower energy concentration at any specific point.
A wave with smaller amplitude will have fewer particles experiencing maximum displacement compared to a wave with larger amplitude. This means that the smaller amplitude wave will have less energy and a lower intensity than the wave with larger amplitude.
The wave for ventricular contraction is larger than the wave for atrial contraction. This is because the ventricles have thicker muscle walls and contract more forcefully in order to pump blood out to the body.
inference
constructive interference
A larger wave typically contains more energy than a smaller wave. This is because larger waves have greater amplitude and move more water as they crest and break, resulting in more energy transfer.
The amplitude of a progressive wave decreases as the wave travels due to energy spreading out over a larger area. This is known as energy dissipation or spreading. As the wave propagates outward, energy is transferred to a larger region, leading to a decrease in amplitude.
The amplitude of a wave is directly related to the amount of disturbance in the water. A wave with a larger amplitude represents a larger disturbance in the water, while a wave with a smaller amplitude represents a smaller disturbance.
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.)