Rheonomous

A mechanical system is rheonomous if its equations of constraints contain the time as an explicit variable.^[1][2] Such constraints are called rheonomic constraints. The opposite of rheonomous is scleronomous.^[1][2]

As shown at right, a simple pendulum is a system composed of a weight and a string. The string is attached at the top end to a pivot and at the bottom end to a weight. Being inextensible, the string has a constant length. Therefore, this system is scleronomous; it obeys the scleronomic constraint

${\displaystyle \sqrt{x^2+y^2}-L=0}$,

where ${\displaystyle (x,y)}$ is the position of the weight and ${\displaystyle L}$ the length of the string.

The situation changes if the pivot point is moving, e.g. undergoing a simple harmonic motion

${\displaystyle x_t=x_0\cos \omega t}$,

where ${\displaystyle x_0}$ is the amplitude, ${\displaystyle \omega }$ the angular frequency, and ${\displaystyle t}$ time.

Although the top end of the string is not fixed, the length of this inextensible string is still a constant. The distance between the top end and the weight must stay the same. Therefore, this system is rheonomous; it obeys the rheonomic constraint

${\displaystyle \sqrt{(x-x_0\cos \omega t{)}^2+y^2}-L=0}$.

• Lagrangian mechanics
• Holonomic constraints

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