Sonar technology uses sound waves to detect objects underwater. When the sound waves hit an object, they bounce back to the device, allowing it to calculate distance, shape, and size of the object. By measuring the time it takes for the sound waves to return, sonar can create a detailed image of the underwater environment.
Longitudinal waves are waves in which the particles of the medium vibrate parallel to the direction of wave motion. A common example is sound waves traveling through air. You can find them through observation and measurement of particle motion in the direction of wave propagation.
The frequency is 0.5 Hz. Since five waves pass in 10 seconds, you divide the number of waves by the time taken to find the frequency, which is five waves / 10 seconds = 0.5 Hz.
The process of using reflected sound waves to find objects is called echolocation. This involves emitting sound waves and then listening for the echoes as they bounce back off objects. By analyzing the time it takes for the echoes to return and the intensity of the sound waves, individuals or animals can determine the distance and location of objects.
Water waves, light waves, and sound waves transfer energy through vibrations. In water waves, the transfer of energy is through the motion of water molecules. Light waves transfer energy through oscillating electric and magnetic fields. Sound waves transfer energy through the compression and rarefaction of air particles.
To find the frequency of diffracted waves, one can use the formula: f_d = (v_sound / λ_d) where: f_d is the frequency of the diffracted wave, v_sound is the speed of sound in the medium, and λ_d is the wavelength of the diffracted wave.
Some insects use ultraviolet waves to find nectar. The ultraviolet light leaves marks on flowers, and the insects can sense them and find the nearby nectar.
seismic waves
find for surfing waves
As the category is not stipulated: I would suggest waves and ripples can be found at the sea side.
By finding the arrival time of the P waves and S waves :)
One can find Waves plug-ins from many places on the Internet. For instance, the official Waves website offers this specific plug-in. One can simply visit the website and click 'download'.
geology.com
The difference in arrival times of P-waves and S-waves can be used to find an earthquake's epicenter. P-waves travel faster than S-waves, so by measuring the time lag between the arrival of the two wave types at different seismic stations, scientists can triangulate the epicenter of the earthquake.
"Cymatic" refers to sound waves and similar vibrations, not to electromagnetic waves. You can do some reading on electromagnetic waves - to get started, you might read the Wikipedia article - and then decide what similarities there are to sound waves.
One can find information about Aqua Waikiki waves from the following sources: Hotels, Expedia, Aqua Resorts, Trip Advisor, Aqua Waikiki waves, Yelp, Booking, Zoover.
Whut?
Scientists use seismic waves to find an earthquake epicenter. By analyzing the arrival times of primary (P) and secondary (S) seismic waves at different seismic stations, scientists can triangulate the epicenter of the earthquake.