I don't recognise your terms 'solar wave' and 'height'. Solar energy is emitted from the sun and reaches earth as radiation in the visible, ultraviolet, and infrared bands. the totoal falling on 1 square meter of earths surface (on average) is 230 watts.
solar and maybe ultraviolet -.-
Solar panels are a renewable energy source, along with windpower and wave power. They can be used to collect energy from the sun and convert it into electricity.
Solar radiation is the radiant energy that is emitted by the sun. About half of the solar radiation is short-wave part of the electromagnetic spectrum. The second half is mostly in the near-infrared part.
Electromagnetic
The colors are made in factories. These factories need electricity to work. this electricity collect by solar energy. Also, solar energy is electromagnetic energy radiating from the Sun. This is wave energy and it has a wavelength, and color is associated with the wavelength, as in a rainbow.
That wave height is too much for me!
When a wave is traveling in deep water, its bottom is at a set depth. As it comes ashore, the wave tries to stay the same wave height. since the land is denser than the water, the water is forced upward. That upward movement is the height of the tsunami.
Hi The term used to refer the height of a wave is "significant wave height".
The height of a wave is the amplitude.
The height of a wave is also known as its amplitude. More generally, the amplitude is "how much some measurement changes" - this measurement need not always be a height.
The usual measure of a tsunami is the height of the wave just as it reaches the beach.
It reaches earth as an electromagnetic wave.
mechanical wave
This is just the definition of "amplitude". The amplitude of a wave is the height of the wave. "Amplitude" is a fancier name for "height" when we speak about waves.
Amplitude of a wave is simply the highest point the wave ever reaches.
When a deep-water pressure wave, such as a tsunami, caused by earthquakes or volcanic eruptions, reaches the continental shelf, it compresses the pressure wave created. When the water gets more shallow, the wave height increases; This is simple physics: the speed of the wave actually slows as it enters shallower water. This slowing causes the wave length to shorten, but the kinetic energy contained in the pressure wave doesn't decrease. Thus the peaks get taller and the troughs get deeper.
That's the wave's "amplitude".