We experimentally investigate the motion of a pendulum on a turntable. The dynamics of this conical pendulum experiment are very rich and can be studied both at the undergraduate and graduate levels. At low rotational frequency of the turntable, we measure the Coriolis acceleration. Increasing the rotational frequency, we experimentally demonstrate a supercritical pitchfork bifurcation: above a critical rotational frequency, the pendulum arm spontaneously rises up. Beyond the characterization of the equilibrium pendulum angle, we evidence the so-called critical slowing down corresponding to the increase in the pendulum period when approaching the critical rotational frequency. Bifurcation and critical slowing down are key concepts in the study of critical phenomena that are seldom illustrated experimentally. All our experimental measurements are in excellent quantitative agreement with the theory we provide.

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The position S of the acceleration sensors of a smartphone does generally not coincide with its center of mass. If S does not coincide with M, the coordinates of M ( O M , θ , φ ) should be replaced in the calculation by coordinates of S ( O S , θ s , φ s ).
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The co-moving acceleration is the acceleration that the point M would have relative to (R)) if it was at rest in ( R ).
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The rod of the pendulum that we use is attached to a cylinder C m that can rotate in a cylindrical part C i of the stem through ball bearings. In order to add some friction on that coupling, a plastic lamella fixed on the cylindrical part C i of the stem scrapes on the cylinder C m.
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