A wave performed with a string is called a "transverse wave." In this type of wave, the particles of the medium move perpendicular to the direction of the wave's propagation.
No, a string wave is a mechanical wave that travels through a medium by the vibration of particles in the medium, while an electromagnetic wave is a wave that consists of oscillating electric and magnetic fields and can travel through a vacuum.
The vertical speed of a horizontal taut string depends on the wave speed because the tension in the string is responsible for transmitting the wave along its length. The wave speed is determined by the tension in the string and the properties of the medium it is traveling through, which in turn affects the vertical motion of the string as the wave propagates.
Frequence of a wave is how often a string oscillates on a specific point between crests. So if the speed of the string is lowered, the crests of the wave will pass the point less often, causing lower frequency
A transverse wave can be produced on a stretched string. In this type of wave, the motion of the particles of the medium is perpendicular to the direction of the wave propagation.
Because the media displacement (up & down movement of the string) is perpendicular to the direction of propagation of the wave. Sound waves are longitudinal waves because the medi displacement is back & forth, which is parallel to the wave propagation.
it's the transverse wave that carries waves on a string .b'caz waves on a string proceed along the length of the string but the particles of the medium that is the particles of the string move perpendicular to the motion of the wave.
No, a string wave is a mechanical wave that travels through a medium by the vibration of particles in the medium, while an electromagnetic wave is a wave that consists of oscillating electric and magnetic fields and can travel through a vacuum.
The vertical speed of a horizontal taut string depends on the wave speed because the tension in the string is responsible for transmitting the wave along its length. The wave speed is determined by the tension in the string and the properties of the medium it is traveling through, which in turn affects the vertical motion of the string as the wave propagates.
Frequence of a wave is how often a string oscillates on a specific point between crests. So if the speed of the string is lowered, the crests of the wave will pass the point less often, causing lower frequency
A transverse wave can be produced on a stretched string. In this type of wave, the motion of the particles of the medium is perpendicular to the direction of the wave propagation.
Because the media displacement (up & down movement of the string) is perpendicular to the direction of propagation of the wave. Sound waves are longitudinal waves because the medi displacement is back & forth, which is parallel to the wave propagation.
Nodes in a standing wave on a vibrating string are the points that remain stationary, with zero amplitude. They occur at fixed positions based on the wavelength of the wave, typically at the endpoints of the string and at regular intervals in between.
Transverse wave. In a transverse wave, particles of the medium move perpendicular to the direction of the wave propagation. An example is a wave on a string where the string moves up and down while the wave travels horizontally.
yes, Its possible to have a longitudinal wave on a stretched string by stroking it along its length by a rosined cloth. However, in the wave motion of a stretched string ( tant string with fixed ends) wave (disturbance) produced at one fixed end travels along the length of the string and get reflected back at the other end. Since the original wave and the reflected wave have the same frequency and amplitude, they superimpose to produce stationary transverse disturbance.
Compression wave
the wave produced in a stretched string will be a standing wave .it will have a node and antinode.node means point with zero displacement and antinode means point with maximum displacement
Lowering the frequency of a wave on a string will result in a longer wavelength and a lower pitch sound.