you can determine it by the wavelenght and the period of the wave and the frequencey
Both intensity and speed determine how wind affects a baseball game. If the wind is intense, it will slow down not only the pitches but the returns, and if it is fast it can make the ball go farther.
P-waves (Primary) and S-waves (Secondary). Using the difference in time between the arrival of P- and S-waves, you can then determine the distance from the epicenter. Once you've determined the distance from the epicenter of three different stations, you'll be able to triangulate the epicenter (the point where all three circles cross).
When a P wave travels from a solid to a liquid, it slows down and refracts, bending towards the normal. This change in speed and direction is due to the differences in the elastic properties of the two mediums.
If referring to differences in types of waves, their is only longitudinal and tranverse waves in which the only difference is that longitudinal waves move in compressions (such as sound). Transverse waves move in a continuos up and down motion (light waves and displayed in the graph of cosine or sine). The properties of waves are diffraction, refraction, constructive interference, destructive interference, and transfer of energy (this is what a wave is).
There are different kinds of wave, such as sound waves, electromagnetic waves, water waves etc. So the first property I would describe as the wave medium. Then you would have the additional properties of amplitude and frequency.
The speed of a wave can be calculated using the formula: speed = frequency x wavelength. Frequency represents the number of oscillations per second, while wavelength is the distance between two consecutive crests or troughs of a wave. By multiplying these two values together, you can determine the speed of the wave.
The speed of a wave is determined by its wavelength and frequency. The formula to calculate wave speed is speed = wavelength x frequency. Without knowing the frequency of the wave, we cannot determine the exact speed.
The two factors that determine the frequency of waves are the wavelength (distance between two consecutive wave crests) and the wave speed (how quickly the wave moves through a medium). The frequency of a wave is calculated as the reciprocal of the period, which is the time it takes for one complete wave cycle to pass a fixed point.
You can determine a wave's wavelength by measuring the distance between two consecutive points on the wave that are in phase, such as two peaks or two troughs. Alternatively, you can calculate the wavelength by dividing the speed of the wave by its frequency.
The wave with the greatest frequency will have the greatest wave speed. Wave speed is determined by multiplying wavelength by frequency. If two waves have the same wavelength but different frequencies, the one with the higher frequency will have the higher wave speed.
You are measuring the wavelength of the wave, which is the distance between two consecutive crests or troughs of a wave. This measurement helps determine the frequency and speed of the wave traveling through the medium.
The wave with the greater frequency has the greatest wave speed. Wave speed is directly proportional to frequency and wavelength, so if two waves have the same wavelength, the wave with the higher frequency will have the greater speed.
wave frequencys tell us the number of waves there are on that diagram.
The equation used for measuring the speed of a wave is the frequency of the wave times one wavelength. velocity= frequency * wavelength Frequency is defined as how many many cycles occur per second. The unit of measurement used for frequency is Hertz (Hz), because Hertz is equivalent to 1/s. (s=second) The wavelength depends on the type of wave you are dealing with, whether it be an open ended wave, a closed end wave, or just a standard wave. But for calculating speed you just need to remember frequency times wavelength.
From a distance graph of a continuous wave as it propagates, you can determine the wavelength and the speed of the wave. By measuring the distance between corresponding points on the wave (e.g., peaks or troughs) you can calculate the wavelength. The speed of the wave can be calculated by dividing the wavelength by the time it takes for the wave to travel that distance.
Wave speed in a liquid can be calculated using the formula: wave speed = frequency × wavelength. The frequency of the wave is the number of complete cycles passing a point per unit of time, while the wavelength is the distance between two wave crests. By determining these two values, you can calculate the speed of a wave in a liquid.
The frequency of a wave tells you how many waves pass a point in a given time, while the wavelength tells you the distance between two successive peaks (or troughs) of the wave. The two are inversely related: as frequency increases, wavelength decreases, and vice versa. Together, they can help determine the speed of the wave using the formula: speed = frequency x wavelength.