分光计设备简易升级的探索和实践

doi:10.14139/i.cnki.cn22-228.2024.05.018

摘要
相关文章
推荐阅读
Metrics

下载:

PDF (3530KB)
输出: BibTeX | EndNote (RIS)

摘要

分光计实验在大学物理实验课程中具有重要的教学意义，有助于学生深化对光学理论和精密测量的理解。针对分光计调平实验中的难点，提出并探讨了一种利用智能手机和手机支架对传统分光计实验装置进行简易升级的方法。该方法通过智能手机的水平仪和拍照网格功能，帮助学生更直观、准确地完成望远镜和载物台的初步调平操作。在细调和测量三棱镜顶角的过程中，借助手机支架的稳定性和手机摄像头的高清显示效果，学生可以实时观测望远镜目镜中的实验现象，显著降低了实验操作的难度，减少了视觉疲劳问题。该升级方案不仅提高了实验效率和质量，同时也增强了学生对实验的兴趣和理解能力。该方法成本低廉、易于实施，具有较高的推广价值。

	服务
	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	（）
	作者相关文章
	张冬凯

关键词: 分光计实验装置升级大学物理实验

Abstract:

The spectrometer experiment holds significant educational value in college physics laboratorycourses, aiding students in deepening their understanding of optical theory and precision measurement. lproposes and explores a simplified method for upgrading traditional spectrometer apparatus using smartphoneand phone holder, specifically addressing the challenges of spectrometer calibration. By utilizing the levelindicator and camera grid features of smartphones, students are able to perform the initial leveling of the telescope and sample stage more intuitively and accurately.During fine adiustments and the measurement of theprism' s apex angle, the stability of the phone holder and the high-definition display of the smartphone cameraenable students to observe experimental phenomena in the telescopes eyepiece in realime.This approachsignificantly reduces the difficulty of experimental operations and minimizes visual fatigue. The proposedupgrade not only enhances the eficiency and quality of the experiment but also increases students’ interest and comprehension.Given its low cost and ease of implementation, this method has considerable potential for wide spread adoption.

Key words: spectrometer experimental equipment upgrade college physics experiment

发布日期: 2024-10-25

ZTFLH:

G 642

引用本文:

张冬凯 . 分光计设备简易升级的探索和实践 [J]. 大学物理实验, 2024, 37(5): 93-96.
ZHANG Dongkai. Exploration and Practice of Simplified Upgradesfor Spectrometer Equipment . Physical Experiment of College, 2024, 37(5): 93-96.

链接本文:

http://dawushiyan.jlict.edu.cn/CN/10.14139/i.cnki.cn22-228.2024.05.018 或 http://dawushiyan.jlict.edu.cn/CN/Y2024/V37/I5/93

[1]	辛政阳, 刘俊杰, 路超, 牛相宏. Matplotlib 和 Matlab 在大学物理实验数据分析中的对比应用 [J]. 大学物理实验, 2024, 37(5): 97-102.
[2]	陈秋帆 . 紫外光照射下钛氧化物对甲醛降解效率的设计性实验 [J]. 大学物理实验, 2024, 37(5): 34-37.
[3]	王　栋. 新时代大学物理实验课程思政建设的实践与思考 [J]. 大学物理实验, 2024, 37(4): 135-138.
[4]	解玉鹏. 新工科背景下大学物理实验师资培训的思考 [J]. 大学物理实验, 2024, 37(4): 132-134.
[5]	王海科. PBL教学模式在大学物理实验教学中的设计与实践———以“分光计的调整和使用”为例 [J]. 大学物理实验, 2024, 37(3): 124-127.
[6]	张智明, 何　珊 , 刘军浩 . 太阳能电池电路的负载特性研究 [J]. 大学物理实验, 2024, 37(3): 1-4.
[7]	王　鹤 , 姜建刚, 张　锐, 张　丹, 王一平, 张　敏. 基于朗伯比尔定律／等厚干涉现象探究溶液吸光度与折射率的关系 [J]. 大学物理实验, 2024, 37(2): 35-38.
[8]	沈雪阳, 陈淼 , 郭艳东. 基于复杂工程问题驱动的锂离子电池综合实验设计及实践 [J]. 大学物理实验, 2024, 37(1): 11-16.
[9]	金克新 , 吕嘉信, 陈云海, 王拴虎, 郑建邦, 王海鹏. 霍尔效应实验教学设计及内容拓展探索 [J]. 大学物理实验, 2024, 37(1): 58-62.
[10]	刘子龙 , 杨东杰 , 陈君青 , 韦世明 , 王玲谦 . “课程思政”视域下大学物理实验的教学探索与实践 [J]. 大学物理实验, 2024, 37(1): 109-113.
[11]	钟　瑞, 韩建卫, 过　聪, 王　拴 , 纪　纬, 张立彬. 创新物理实验教学：光学实验在光纤通信中的应用实践 [J]. 大学物理实验, 2023, 36(6): 29-33.
[12]	刘　艳, 王长昊 . OBE理念下大学物理实验课程教学模式的探索与实践 [J]. 大学物理实验, 2023, 36(6): 136-138.
[13]	王江新 , 杨　丽 , 姜建刚 , 冯秀绒 , 解迎革, 王　鹤 . 基于惠斯通电桥探究热敏电阻与温度之间的关系 [J]. 大学物理实验, 2023, 36(6): 45-48.
[14]	杨江萍, 张员铭, 邱佩惠, 周卫东, 汪成 . 全反射法测量液体折射率的一种改进方案 [J]. 大学物理实验, 2023, 36(5): 1-4.
[15]	于琦 , 缪琦, 吕亮. 基于回音壁微球腔的共振现象实验教学设计研究 [J]. 大学物理实验, 2023, 36(5): 5-8.

[1]	. [J]. Physical Experiment of College, 2020, 33(1): 0 .
[2]	. [J]. Physical Experiment of College, 2020, 33(1): 0 .
[3]	WU Ming, ZENG Hong, ZHANG Wenpeng, ZHANG Yuanwei, DAI Zhenbing. Theoretical and Experimental Research of A zimuthal-Radial Pendulum [J]. Physical Experiment of College, 2020, 33(1): 1 -6 .
[4]	LIU Weiwei, SUN Qing, LIU Chenglin. Research on Selection of Critical Magnetization Current for Measuring Charge-Mass Ratio of Electron by Magnetron Controlling [J]. Physical Experiment of College, 2020, 33(1): 7 -9 .
[5]	DENG Li, LIU Yang, ZHANG Hangzhong, ZHOU Kewei, ZHAO guoru, WEI luanyi. MATLAB simulation of Fourier transform of Gaussian beam and the spatial filtering effects basing on 4F optical imaging system [J]. Physical Experiment of College, 2020, 33(1): 10 -16 .
[6]	MA Kun. Experiment Study on the Measuring Young' s Modulus by Stretching [J]. Physical Experiment of College, 2020, 33(1): 17 -20 .
[7]	FEI Xianxiang, CHEN Chunlei, WANG Wenhua, SHI Wenqing, HUANG Cunyou. Design of Lens Group Focal Length Measurement System Based on Object-Image Parallax Comparison [J]. Physical Experiment of College, 2020, 33(1): 21 -24 .
[8]	LI Chunjiang, LI Luyu, YANG Jinglei, LI Tingrong, XIANG Wenli. A New Method for Simple and Rapid Measurement of Refractive Index [J]. Physical Experiment of College, 2020, 33(1): 25 -28 .
[9]	WANG Cuiping, YAO Mengyu, YE Liu, LI Aixia, ZHANG Ziyun, DAI Peng. Progress and Applications of Electron Spin Resonance in Biology [J]. Physical Experiment of College, 2020, 33(1): 29 -33 .
[10]	CHEN Yingmo, SHEN Siyi, WANG Jie. Study on the Characteristics of Silicon Photocells [J]. Physical Experiment of College, 2020, 33(1): 34 -36 .

Viewed

Full text

Abstract

Cited

Shared

Discussed