Particle acceleration

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This article is about small-scale particle acceleration in acoustics. For acceleration of charged particles to very high energies, see particle accelerator.

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In a compressible sound transmission medium - mainly air - air particles get an accelerated motion: the particle acceleration or sound acceleration with the symbol a in metre/second². In acoustics or physics, acceleration (symbol: a) is defined as the rate of change (or time derivative) of velocity. It is thus a vector quantity with dimension length/time². In SI units, this is m/s².

To accelerate an object (air particle) is to change its velocity over a period. Acceleration is defined technically as "the rate of change of velocity of an object with respect to time" and is given by the equation

\mathbf{a} = {d\mathbf{v}\over dt}

where

  • a is the acceleration vector
  • v is the velocity vector expressed in m/s
  • t is time expressed in seconds.

This equation gives a the units of m/(s·s), or m/s² (read as "metres per second per second", or "metres per second squared").

An alternative equation is:

\mathbf{\bar{a}} = {\mathbf{v} - \mathbf{u} \over t}

where

\mathbf{\bar{a}} is the average acceleration (m/s²)

\mathbf{u} is the initial velocity (m/s)

\mathbf{v} is the final velocity (m/s)

t is the time interval (s)

Transverse acceleration (perpendicular to velocity) causes change in direction. If it is constant in magnitude and changing in direction with the velocity, we get a circular motion. For this centripetal acceleration we have

\mathbf{a} = - \frac{v^2}{r} \frac{\mathbf{r}}{r} = - \omega^2 \mathbf{r}

One common unit of acceleration is g-force, one g being the acceleration caused by the gravity of Earth.

In classical mechanics, acceleration a \ is related to force F \ and mass m \ (assumed to be constant) by way of Newton's second law:

F = m \cdot a

Equations in terms of other measurements

The Particle acceleration of the air particles a in m/s² of a plain sound wave is:

a = \delta \cdot \omega^2 = v \cdot \omega = \frac{p \cdot \omega}{Z} = \omega \sqrt \frac{J}{Z} = \omega \sqrt \frac{E}{\rho} = \omega \sqrt \frac{P_{ac}}{Z \cdot A}
Symbol Units Meaning
a m/s² particle acceleration
v m/s particle velocity
δ m, meters particle displacement
\omega = 2 · \pi · f radians/s angular frequency
f Hz, hertz frequency
p Pa, pascals sound pressure
Z N·s/m³ acoustic impedance
J W/m² sound intensity
E W·s/m³ sound energy density
Pac W, watts sound power or acoustic power
A area

See also

External links

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