continuous,regular and rythmic disturbances in a medium result from periodic vibrations of a source which cause periodic waves in that medium.
If you increase the frequency of a periodic wave, the wavelength would decrease. This is because wavelength and frequency are inversely proportional in a wave: as frequency goes up, wavelength goes down.
A periodic wave.
The velocity of a periodic wave is determined by the medium through which it travels and the frequency of the wave. Changes in the medium's properties (such as density or elasticity) can alter the wave velocity. Additionally, changes in the frequency of the wave can affect its velocity according to the wave equation.
Wave motion is considered doubly periodic because it repeats itself both spatially and temporally. In other words, the wave pattern repeats at regular intervals both in space and time. The spatial periodicity refers to the wave pattern repeating at a fixed distance, while temporal periodicity refers to the wave pattern repeating at fixed time intervals.
Two.
If you increase the frequency of a periodic wave, the wavelength would decrease. This is because wavelength and frequency are inversely proportional in a wave: as frequency goes up, wavelength goes down.
Wave is just a disturbance in a regular/periodic/organized way.
A pulse wave is a single vibratory disturbance that moves from one point to another. A periodic wave is a serious of disturbances that are evenly spaced.
A periodic wave.
The velocity of a periodic wave is determined by the medium through which it travels and the frequency of the wave. Changes in the medium's properties (such as density or elasticity) can alter the wave velocity. Additionally, changes in the frequency of the wave can affect its velocity according to the wave equation.
An AC periodic wave refers to an alternating current waveform that repeatedly varies with time, switching direction at regular intervals. This type of wave is commonly used in electrical systems to generate power and transmit signals. AC periodic waves are defined by their amplitude, frequency, and phase characteristics.
Wave motion is considered doubly periodic because it repeats itself both spatially and temporally. In other words, the wave pattern repeats at regular intervals both in space and time. The spatial periodicity refers to the wave pattern repeating at a fixed distance, while temporal periodicity refers to the wave pattern repeating at fixed time intervals.
Two.
A series of evenly timed pulses create a wave with a constant frequency, also known as a periodic wave. The repetition rate of the pulses determines the wave's frequency, while the amplitude of the pulses determines the wave's intensity or strength. This type of wave can be observed in various phenomena such as sound waves or electromagnetic waves.
A periodic wave repeats itself at regular intervals, with each cycle of the wave pattern identical to the previous cycle. Examples of periodic waves include sine waves and cosine waves.
Wave motion is periodic in space because it repeats the same pattern over and over at regular intervals. This periodic behavior can be described in terms of wavelength, which is the distance between two consecutive points on a wave that are in phase. As the wave propagates through space, this periodicity is maintained, resulting in a repetitive pattern.
A periodic wave. This type of wave is generated by a source that has a repetitive motion pattern, leading to the wave's characteristic periodic variations in amplitude or frequency. Examples include sine waves, square waves, and sawtooth waves.