Oscillation properties of a simple pendulum in a viscous liquid

Zhe Hou; Kai Yuan; Fuyong Xie; Hai Jin; Qingfan Shi

doi:10.1088/0143-0807/36/1/015011

Oscillation properties of a simple pendulum in a viscous liquid

Zhe Hou, Kai Yuan, Fuyong Xie, Hai Jin, Qingfan Shi

School of Mathematics and Statistics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

This paper studies the oscillation properties of a simple pendulum immersed in a viscous liquid. A nonlinear equation of motion for the pendulum is first established by considering both viscous damping and quadratic damping, and solved by using the improved averaging method. Then a relationship between the oscillation period and the viscosity of liquid is derived. The experimental data obtained are consistent with the theoretical prediction, which also suggests a new approach to measure the liquid viscosity. We believe that this paper may be helpful for broadening teaching content for the simple pendulum and for better understanding the vibration of an object in liquids in some applications.

Original language	English
Article number	015011
Journal	European Journal of Physics
Volume	36
Issue number	1
DOIs	https://doi.org/10.1088/0143-0807/36/1/015011
Publication status	Published - 1 Jan 2015

Keywords

damping
improved averaging method
oscillation period
viscosity

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10.1088/0143-0807/36/1/015011

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title = "Oscillation properties of a simple pendulum in a viscous liquid",

abstract = "This paper studies the oscillation properties of a simple pendulum immersed in a viscous liquid. A nonlinear equation of motion for the pendulum is first established by considering both viscous damping and quadratic damping, and solved by using the improved averaging method. Then a relationship between the oscillation period and the viscosity of liquid is derived. The experimental data obtained are consistent with the theoretical prediction, which also suggests a new approach to measure the liquid viscosity. We believe that this paper may be helpful for broadening teaching content for the simple pendulum and for better understanding the vibration of an object in liquids in some applications.",

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AU - Hou, Zhe

AU - Yuan, Kai

AU - Xie, Fuyong

AU - Jin, Hai

AU - Shi, Qingfan

PY - 2015/1/1

Y1 - 2015/1/1

N2 - This paper studies the oscillation properties of a simple pendulum immersed in a viscous liquid. A nonlinear equation of motion for the pendulum is first established by considering both viscous damping and quadratic damping, and solved by using the improved averaging method. Then a relationship between the oscillation period and the viscosity of liquid is derived. The experimental data obtained are consistent with the theoretical prediction, which also suggests a new approach to measure the liquid viscosity. We believe that this paper may be helpful for broadening teaching content for the simple pendulum and for better understanding the vibration of an object in liquids in some applications.

AB - This paper studies the oscillation properties of a simple pendulum immersed in a viscous liquid. A nonlinear equation of motion for the pendulum is first established by considering both viscous damping and quadratic damping, and solved by using the improved averaging method. Then a relationship between the oscillation period and the viscosity of liquid is derived. The experimental data obtained are consistent with the theoretical prediction, which also suggests a new approach to measure the liquid viscosity. We believe that this paper may be helpful for broadening teaching content for the simple pendulum and for better understanding the vibration of an object in liquids in some applications.

KW - damping

KW - improved averaging method

KW - oscillation period

KW - viscosity

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VL - 36

JO - European Journal of Physics

JF - European Journal of Physics

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ER -

Oscillation properties of a simple pendulum in a viscous liquid

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Keywords

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