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A **harmonograph** is a mechanical apparatus that employs pendulums to create a geometric image. The drawings created typically are Lissajous curves or related drawings of greater complexity. The devices, which began to appear in the mid-19th century and peaked in popularity in the 1890s, cannot be conclusively attributed to a single person, although Hugh Blackburn, a professor of mathematics at the University of Glasgow, is commonly believed to be the official inventor.^{[1]}

A simple, so-called "lateral" harmonograph uses two pendulums to control the movement of a pen relative to a drawing surface. One pendulum moves the pen back and forth along one axis, and the other pendulum moves the drawing surface back and forth along a perpendicular axis. By varying the frequency and phase of the pendulums relative to one another, different patterns are created. Even a simple harmonograph as described can create ellipses, spirals, figure eights and other Lissajous figures.

More complex harmonographs incorporate three or more pendulums or linked pendulums together (for example, hanging one pendulum off another), or involve rotary motion, in which one or more pendulums is mounted on gimbals to allow movement in any direction.

A particular type of harmonograph, a pintograph, is based on the relative motion of two rotating disks, as illustrated in the links below (as opposed to a pantograph, a mechanical device used to enlarge figures).

A Blackburn pendulum is a device for illustrating simple harmonic motion, it was named after Hugh Blackburn, who described it in 1844. This was first discussed by James Dean in 1815 and analyzed mathematically by Nathaniel Bowditch in the same year.^{[2]} A bob is suspended from a string that in turn hangs from a V-shaped pair of strings, so that the pendulum oscillates simultaneously in two perpendicular directions with different periods. The bob consequently follows a path resembling a Lissajous curve; it belongs to the family of mechanical devices known as harmonographs.^{[3]}

Mid-20th century physics textbooks sometimes refer to this type of pendulum as a double pendulum.^{[4]}

A harmonograph creates its figures using the movements of damped pendulums. The movement of a damped pendulum is described by the equation

in which represents frequency, represents phase, represents amplitude, represents damping and represents time. If that pendulum can move about two axes (in a circular or elliptical shape), due to the principle of superposition, the motion of a rod connected to the bottom of the pendulum along one axes will be described by the equation

A typical harmonograph has two pendulums that move in such a fashion, and a pen that is moved by two perpendicular rods connected to these pendulums. Therefore, the path of the harmonograph figure is described by the parametric equations

An appropriate computer program can translate these equations into a graph that emulates a harmonograph. Applying the first equation a second time to each equation can emulate a moving piece of paper (see the figure below).

A figure produced by a simple lateral harmonograph

A figure produced by a simple lateral harmonograph

A figure produced by a pintograph

Computer-generated harmonograph figure

Wikimedia Commons has media related to Harmonograph.

**^**Turner, Steven (February 1997). "Demonstrating Harmony: Some of the Many Devices Used To Produce Lissajous Curves Before the Oscilloscope".*Rittenhouse*.**11**(42): 41.**^**Pook, Leslie Philip (2011).*Understanding Pendulums: A Brief Introduction*. Springer. ISBN 978-9-40-073634-4.**^**Baker, Gregory L.; Blackburn, James A. (2005).*The Pendulum: a case study in physics*. Oxford. ISBN 978-0-19-156530-4.**^**Francis Sears and Mark W. Zemansky (1964).*University Physics*(3rd ed.). Addison-Wesley Publishing Company.

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