【FM-07三线摆/单摆实验仪 产品介绍（中文版）】

FM-07三线摆/单摆实验仪是一款专为高等院校、科研机构及中学物理实验室设计的综合性力学实验装置。该设备通过模块化设计整合了三线摆与单摆两种经典实验系统，能够满足基础物理教学与进阶力学研究的多样化需求。其核心设计注重实验数据的直观性与操作便捷性，适用于转动惯量测定、简谐振动规律探究、重力加速度测量等经典力学实验项目。

产品采用高精度金属框架与轻量化复合材料相结合的结构，主体支架通过力学优化设计保障了实验平台的稳定性。三线摆系统配置可调节式悬线盘，支持不同形状待测物体的快速安装，结合精密角度传感器可实时捕捉摆角变化数据。单摆模块配备多组可替换摆球与长度标尺，支持振幅、周期等参数的精细化调节。实验仪内置高灵敏度数据采集接口，兼容主流物理实验软件，可实现数据可视化分析与动态曲线同步展示。

为提升教学演示效果，设备采用开放式透明防护罩设计，既确保实验安全性，又便于观察摆体运动状态。配套实验手册提供分步骤操作指南与典型应用案例，帮助使用者快速掌握实验原理与方法。产品适用于力学基础教学、创新实验课程开发以及小型科研项目的预研验证，能够有效辅助学生理解刚体动力学与振动系统的物理规律。

【FM-07 Triple Pendulum/Single Pendulum Apparatus Product Introduction (English Version)】

The FM-07 Triple Pendulum/Single Pendulum Apparatus is an integrated experimental device developed for mechanics education and research applications. Combining triple pendulum and single pendulum systems through modular design, this apparatus provides a versatile platform for exploring fundamental physics principles in academic laboratories. Its dual-function configuration supports multiple classic experiments including moment of inertia measurement, harmonic oscillation analysis, and gravitational acceleration determination.

Constructed with precision-engineered alloy framework and reinforced composite materials, the apparatus ensures exceptional structural stability during prolonged operation. The triple pendulum module features adjustable suspension discs with quick-release clamps, allowing efficient mounting of various geometric specimens. Integrated angular displacement sensors enable real-time tracking of oscillation parameters with enhanced measurement accuracy. The single pendulum unit incorporates interchangeable bobs and calibrated length scales, facilitating precise control over oscillation amplitude and period characteristics.

Innovative transparent safety enclosure design provides unobstructed observation of pendulum motion while maintaining operational security. Standardized data ports support seamless connectivity with laboratory measurement systems, enabling real-time waveform visualization and parametric analysis through compatible software. Accompanying instructional materials include systematic experiment protocols and practical application examples, offering comprehensive guidance for both teaching demonstrations and independent research activities.

This apparatus demonstrates particular value in foundational mechanics instruction, experimental methodology training, and preliminary scientific investigations. Its user-friendly interface and reliable performance make it an ideal choice for cultivating students hands-on experimentation skills and deepening their understanding of rigid body dynamics and oscillatory systems.