基于变频快速傅里叶变换的变温声速测量研究VARIABLE-TEMPERATURE SOUND SPEED MEASUREMENT BASED ON FAST FOURIER TRANSFORM INDUCED BY VARIABLE FREQUENCY
王才林,邵明珍,徐婷婷,王克东,刘丽莎,赵小清
摘要(Abstract):
本文利用自主研制的可闻声波研究综合实验平台,基于变频快速傅里叶变换(FFT)对常温和变温条件下的声速测量进行研究,并将测量结果与传统固定频率测量声速的方法进行对比。结果表明:常温下该方法与传统固定频率测量声速的方法所得结果误差均小于1.0%,但传统方法测量结果误差随固定频率的增大而波动,而基于变频FFT测量方法的测量结果误差随着发射器与接收器之间距离的增大而减小,两种测量方法所得结果与理论值符合较好,表明基于该平台的测量结果精度较高,设备运行稳定可靠;变温条件下声速随着温度的升高而线性增大,所得结果与理论值符合较好,最大误差为2.1%,进一步验证了基于变频FFT测量方法的可靠性和便利性,为后续基于该平台测量不同压强和不同介质等条件下声速提供了良好支撑。
关键词(KeyWords): 定频变距;定距变频;快速傅里叶变换;Audition软件;变温声速测量
基金项目(Foundation): 南方科技大学2024年度教学质量与教学改革工程项目(No.SJZLGC202450)
作者(Author): 王才林,邵明珍,徐婷婷,王克东,刘丽莎,赵小清
参考文献(References):
- [1] 谢春香,张禹涛,黄笃之.非简谐波对声速测量的影响[J].湖南科技大学学报,2013,28(1):120-123.XIE C X,ZHANG Y T,HUANG D Z.Discuss on anharmonic phenomenon in experiment of sound speed measurement[J].2013,28(1):120-123.(in Chinese)
- [2] 何佳清,霍剑青,陈佶,等.大学物理基础与综合性实验[M].北京:高等教育出版社,2018:116-120.HE J Q,HUO J Q,CHEN J,et al.Fundamentals and Comprehensive Experiments of University Physics[M].Beijing:Higher Education Press,2018:116-120.(in Chinese)
- [3] 丛晓燕,吕刚,曹学成.声速测定实验的教学实践研究[J].大学物理实验,2020,33(5):39-41.CONG X Y,LYU G,CAO X C.The Teaching Practice Research of Sound Velocity Measurement Experiment[J].Physical Experiment of College,2020,33(5):39-41.(in Chinese)
- [4] 薛啸天,宋文搞,崔渔维,等.超声波声速测量实验的拓展[J].大学物理实验,2021,34(2):30-32.XUE X T,SONG W G,CUI Y W,et al.The Expansion of Ultrasonic Sound Velocity Measurement Experiment[J].Physical Experiment of College,2021,34(2):30-32.(in Chinese)
- [5] 吴鲁杰,赵志强.基于Phyphox软件的物理实验创新设计[J].物理教师,2024,45(5):61-63.WU L J,ZHAO Z Q.Innovative Design of Physics Experiments Based on Phyphox Software[J].Physics Teacher,2024,45(5):61-63.(in Chinese)
- [6] 姚星星,郑远.基于手机传感器Phyphox的声速测量方法研究[J].大学物理实验,2023,36(3):74-77.YAO X X,ZHENG Y.Research on Sound Velocity Measurement Method Based on Mobile Phone Sensor Phyphox[J].Physical Experiment of College,2023,36(3):74-77.(in Chinese)
- [7] 闫志涛,敬天慧,谭覃,等.基于超声波近完全相消相干测量声速[J].大学物理,2022,41(7):54-57.YAN Z T,JING T H,TAN Q,et al.Measurement of sound speed based on nearly complete destructive interference of ultrasound[J].College Physics,2022,41(7):54-57.(in Chinese)
- [8] 彭刚,许林,彭朝阳,等.相位比较法测量空气中声速实验的改进研究[J].物理通报,2024,6:109-113.PENG G,XU L,PENG C Y,et al.Research on Improving the Experiment of Measuring Sound Velocity in Air Using Phase Comparison Method[J].Physics Bulletin,2024,6:109-113.(in Chinese)
- [9] 何雨航,王吉有,王翀,等.变频定距法测量声速[J].物理实验,2012,32(9):36-38.HE Y H,WANG J Y,WANG C,et al.Measuring sound speed by changing sound frequency in a fixed distance[J].Physics Experimentation,2012,32(9):36-38.(in Chinese)
- [10] 教育部高等学校大学物理课程教学指导会.理工科类大学物理课程教学基本要求、理工科类大学物理实验课程教学基本要求[M].北京:高等教育出版社,2023:17-21.Teaching and Guidance Committee of Higher Education School for University Physics Courses.The basic requirements for teaching physics courses in science and engineering universities,and basic requirements for teaching physics experiment courses in science and engineering universities[M].Beijing:Higher Education Press,2023:17-21.(in Chinese)
- [11] 石明吉,罗鹏晖,刘斌,等.驻波法与相位比较法声速测量实验的对比研究[J].物理通报,2018,9:89-92.SHI M J,LUO P H,LIU B,et al.Comparative Study on Sound Speed Measurement Experiment Based on Standing Wave Method and Phase Comparison Method[J].Physics Bulletin,2018,9:89-92.(in Chinese)