基于Mathematica 数学软件的玻尔共振实验综合研究

doi:10.16854 /j.cnki.1000-0712.180478

College Physics ›› 2019, Vol. 38 ›› Issue (4): 37-41.doi: 10.16854 /j.cnki.1000-0712.180478

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A comprehensive analysis of Bohr resonator experiment based on Mathematica simulation

LIANG Yan-xuan1，LIANG Jian-xin2，FU Zheng3，ZHANG Ya-ping2* ，CHEN Chu-hong-xu2， ZHANG Ji-ping2

1. School of Petroleum Engineering China University of Petroleum，Qingdao，Shandong 266580，China; 2. College of Science China University of Petroleum，Qingdao，Shandong 266580，China; 3. School of Geosciences，China Universityof Petroleum，Qingdao，Shandong 266580，China

Received:2018-08-26 Revised:2018-11-12 Online:2019-04-20 Published:2019-05-09

Abstract

Abstract: Bohr resonator is often used to the single degree of freedom linear mechanical vibration research with

measurement data and Mechanism analysis. However，there is few research on the simulation of forced vibration

process with this instrument. In this paper，we use the Mathematica software to edit the relevant simulation program

in order to gain the numerical simulation results and analytic solutions for the amplitude-frequency characteristics

and phase-frequency characteristics of forced vibration with Bohr resonator. Through the precious error analysis of

simulation results and instrument experimental results，the advantages and disadvantages of the two simulation algorithms

are discussed. In addition，we also use the Mathematica software to break through the function limitation of

Bohr resonator，under the current experimental conditions，in order to study the mechanical vibration law more

deeply and expand the application of the Mathematica software in experiment analysis.

Key words: Bohr resonance experiment, Mathematica, vibration, simulation

LIANG Yan-xuan, LIANG Jian-xin, FU Zheng, ZHANG Ya-ping , CHEN Chu-hong-xu, . A comprehensive analysis of Bohr resonator experiment based on Mathematica simulation[J].College Physics, 2019, 38(4): 37-41.

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A comprehensive analysis of Bohr resonator experiment based on Mathematica simulation

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