PlanetPhysics/Acceleration

The acceleration of an [[../TrivialGroupoid/|object]] is the time derivative of its velocity. Like velocity, acceleration can therefore be considered either as a [[../Vectors/|vector]] quantity or as a [[../Vectors/|scalar]] quantity. Acceleration is usually denoted by the symbol ${\displaystyle a}$, by ${\displaystyle \dot{v}}$ (the time derivative of the velocity) or by ${\displaystyle \ddot{x}}$ (the second time derivative of the [[../Position/|position]]). We can write the definition of acceleration (in vector form) as follows: ${\displaystyle 𝐚(t)\equiv \frac{\mathrm{d}𝐯(t)}{\mathrm{d}t}.}$

The SI unit of acceleration is ${\displaystyle \mathrm{m}/{\mathrm{s}}^{\mathrm{2}}}$ (metres per second per second, or metres per second squared). Another unit of acceleration is ${\displaystyle g}$, defined as ${\displaystyle g=9.80665\mathrm{m}/{\mathrm{s}}^{\mathrm{2}}}$; this is approximately the acceleration due to gravity at the surface of the Earth at a latitude of ${\displaystyle 45^{\circ }}$.

In addition to acceleration as the time derivative (instantaneous rate of change) of velocity, the average acceleration , or the change of velocity ${\displaystyle \mathrm{\Delta }𝐯}$ over a specified period of time ${\displaystyle \mathrm{\Delta }𝐭}$, can also be defined: ${\displaystyle \overline{𝐚}\equiv \frac{\mathrm{\Delta }𝐯}{\mathrm{\Delta }t}.}$

In [[../MathematicalFoundationsOfQuantumTheories/|classical mechanics]], acceleration is caused by forces. If a total force ${\displaystyle 𝐅}$ acts on an object with constant [[../Mass/|mass]] ${\displaystyle m}$, the object undergoes an acceleration ${\displaystyle 𝐚}$ as described by Newton's second law: ${\displaystyle 𝐅=m𝐚.}$ In contrast to velocity, which depends on the observer's [[../SimilarityAndAnalogousSystemsDynamicAdjointnessAndTopologicalEquivalence/|system]] of reference, acceleration can be called an absolute quantity, in the sense that two observers moving with constant velocity with respect to each other perceive the same acceleration.

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