Vibrational Motion is the motion of a body during which it moves to and fro about its fixed position.
On the other hand, When the patricles of a substance are disturbed due to vibration, they transfer the energy to the neighbouring particles which in turn forms a wave; and when multiples waves move away from the point of disturbence we see a wave motion.
Particles have wave-like characteristics (de Broglie) and waves have particle-like characteristics (Plank, Einstein).
In quantum mechanics, physicists use the language of mathematics to describe phenomena that occurs at the smallest level of what we call "reality" or matter. Using the English language, the best possible explanation for the difference between particle vibration and wave motion is that they are the same thing, only described differently because of the experiments done with photons (light particles), which are both particles and waves, depending on how the experiment is set up.
The vibration of particles is understood to be the movement of electrons around an atom. Shrodinger believed this movement to be like a cloud, surrounding the particle. Max Born described the vibrating electrons of a particle as a "probability wave."
vibrations are physical evidence of waves, such as a loud stereo shaking a table, sound waves cause vibrations
A vibration is the change over a period of time and the wave is a length traveled during the vibration period. The vibration period and the wave length define the speed c=wf where w is the wavelength and f is the frequency of vibration or the reciprocal of period.
No differences exist.Nature loves symmetry.
A: VIBRATOR IS A MECHANICAL OSCILLATOR oscillator is an electronic device
In Bulk Motion, the actual object is moving along in a wave formation. In Wave Motion, only the wave is moving, not the material . Picture a 'wave' at a ball game. The people move up and down but not from seat to seat. This is Wave Motion.
Longitudinal wave particles move parallel to the way the wave is moving. Surface wave particles move in a circular motion.
Wavelength.
The wavelength of a transverse wave is the distance between successive crests.
because motion is moving and wave motion has waves
In Bulk Motion, the actual object is moving along in a wave formation. In Wave Motion, only the wave is moving, not the material . Picture a 'wave' at a ball game. The people move up and down but not from seat to seat. This is Wave Motion.
Longitudinal wave particles move parallel to the way the wave is moving. Surface wave particles move in a circular motion.
A wave is a normal wave and a wave length is the wave Height or distance
Wavelength.
because motion is moving and wave motion has waves
The wavelength of a transverse wave is the distance between successive crests.
energy is transmitted by different waves
Both parallel and perpendicular to the motion of the wave at the same time/Perpendicular to the motion of the wave/Parallel to the motion of the wave - APEXPerpendicular to the motion of the wave.Parallel to the motion of the wave.Both parallel and pependicular to the motion of the wave at the same time.
The motion is parallel to wave direction The motion is both parallel and perpendicular to wave direction. The motion is perpendicular to wave direction.
wave is a part of a signal . millions of wave construct a signal .
the motion of a wave changes when it moves
Yes