When a transverse progressive wave gets superimposed by the reflected wave then stationary transverse waves are produced
Stationary transverse waves are produced on strings. This is due to the superimposition of the progressive wave and its reflection at the knife edges.
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.
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
kinetic energy
Into movement, i.e., kinetic energy.
Stationary transverse waves are produced on strings. This is due to the superimposition of the progressive wave and its reflection at the knife edges.
Stationary transverse waves are produced on strings. This is due to the superimposition of the progressive wave and its reflection at the knife edges.
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.
a streched string is a wave in itself though stationary when it is plucked the strongest force creates the most audible wave form which is then modified by concomintant wave(e.g.,guitar);I like the eirst two relevant answers better:they're probably right
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
The vibration of the Longitudinal wave is parallel to the wave direction and the vibration is perpendicular to the direction in the transverse wave.
kinetic energy
kinetic energy
Kinetic energy and then to heat.
a line is a set of infinite points. a stretched string is finite.
Into movement, i.e., kinetic energy.
Place a piece of string on a table and anchor one end so that it cannot move. Shake the other end of the string from left to right, while leaving the string lying flat on the table. You are creating transverse waves or oscillations.