dynamograph
简明释义
英[daɪˈnæməˌɡrɑːf]美[daɪˈnæməˌɡræf]
n. 握力计
英英释义
A dynamograph is an instrument used to measure and record the force, speed, or power of a moving object, often used in engineering and physics. | 动力记录仪是一种用于测量和记录运动物体的力、速度或功率的仪器,通常用于工程和物理学。 |
单词用法
动态图表仪测试 | |
动态图表仪分析 | |
安装动态图表仪 | |
操作动态图表仪 |
同义词
反义词
| 静态的 | 物体的静态特性使得分析更简单。 | ||
| 不动的 | An immobile system can be beneficial in certain engineering applications. | 在某些工程应用中,不动的系统可能是有益的。 |
例句
1.The main compositions of system are the GPRS/GPS wireless communication system, the dynamograph collection equipment and the intelligent analysis oilfield GIS software.
系统主要由GPRS/GPS无线通信系统、示功图采集装置和油田GIS智能分析诊断软件组成。
2.The main compositions of system are the GPRS/GPS wireless communication system, the dynamograph collection equipment and the intelligent analysis oilfield GIS software.
系统主要由GPRS/GPS无线通信系统、示功图采集装置和油田GIS智能分析诊断软件组成。
3.The sports scientist recorded the athlete's performance using a dynamograph to assess strength.
运动科学家使用dynamograph记录运动员的表现,以评估力量。
4.Researchers used a dynamograph to analyze the performance of various materials under stress.
研究人员使用dynamograph分析不同材料在应力下的性能。
5.The engineer used a dynamograph to measure the force exerted by the machine during operation.
工程师使用dynamograph来测量机器在运行过程中施加的力。
6.The dynamograph displayed the torque generated by the engine.
该dynamograph显示了发动机产生的扭矩。
7.In the lab, we calibrated the dynamograph to ensure accurate readings.
在实验室,我们校准了dynamograph以确保读数准确。
作文
In the field of engineering and physics, the term dynamograph refers to a device used to measure and record dynamic forces and movements. This instrument is crucial for understanding how various forces interact with objects in motion. The dynamograph is often employed in experiments to analyze the behavior of materials under different conditions, such as stress, strain, and vibration. By capturing these measurements, engineers can design safer and more efficient structures and machines.One of the primary applications of the dynamograph is in the automotive industry. Engineers use this device to assess the performance of vehicles under various driving conditions. For instance, when testing a car’s suspension system, a dynamograph can help determine how well the system absorbs shocks from the road. By analyzing the data collected, engineers can make necessary adjustments to improve ride quality and safety.Moreover, the dynamograph plays a significant role in sports science. Researchers utilize this technology to study the dynamics of athletes' movements. By measuring the forces exerted during activities such as running, jumping, or throwing, scientists can identify areas for improvement in an athlete's technique. This information can lead to better training regimens and enhanced performance.In addition to its applications in engineering and sports, the dynamograph is also valuable in the field of biomechanics. This discipline focuses on the mechanical aspects of living organisms. By using a dynamograph, researchers can investigate how muscles and joints work together during movement. This knowledge is essential for developing rehabilitation programs for injured athletes or individuals recovering from surgery.The evolution of the dynamograph has been remarkable over the years. Initially, these instruments were mechanical and required manual recording of data. However, advancements in technology have led to the development of digital dynamographs, which provide real-time data analysis and visualization. This progress allows engineers and scientists to make quicker decisions based on accurate information, ultimately leading to better outcomes in their respective fields.Despite its many advantages, the use of a dynamograph also comes with challenges. One significant issue is the calibration of the device. Accurate measurements depend on proper calibration, and any errors can lead to misleading results. Therefore, users must be diligent in maintaining and calibrating their dynamograph to ensure reliable data collection.In conclusion, the dynamograph is an essential tool in various fields, including engineering, sports science, and biomechanics. Its ability to measure and record dynamic forces provides valuable insights that contribute to advancements in technology and human performance. As we continue to innovate and improve these devices, the potential applications of the dynamograph will only expand, further enhancing our understanding of the physical world around us. With ongoing research and development, the future of the dynamograph promises to bring even greater benefits to society, making it an indispensable instrument in the quest for knowledge and improvement.
在工程和物理学领域,术语dynamograph指的是一种用于测量和记录动态力量和运动的设备。这种仪器对于理解各种力量如何与运动中的物体相互作用至关重要。dynamograph通常用于实验中,以分析材料在不同条件下的行为,例如应力、应变和振动。通过捕捉这些测量结果,工程师可以设计出更安全、更高效的结构和机器。dynamograph的主要应用之一是在汽车工业中。工程师利用该设备评估车辆在各种驾驶条件下的性能。例如,在测试汽车悬挂系统时,dynamograph可以帮助确定系统如何吸收来自道路的冲击。通过分析收集的数据,工程师可以进行必要的调整,以改善乘坐质量和安全性。此外,dynamograph在体育科学领域也发挥着重要作用。研究人员利用这项技术研究运动员动作的动态。通过测量在跑步、跳跃或投掷等活动中施加的力量,科学家可以识别运动员技术改进的领域。这些信息可以导致更好的训练方案和提高表现。除了在工程和体育中的应用,dynamograph在生物力学领域也具有重要价值。这个学科关注生物体的机械方面。通过使用dynamograph,研究人员可以研究肌肉和关节在运动期间如何协同工作。这些知识对为受伤运动员或正在康复的人制定恢复计划至关重要。dynamograph的演变多年来可谓显著。最初,这些仪器是机械的,需要手动记录数据。然而,技术的进步导致了数字dynamographs的发展,可以提供实时数据分析和可视化。这一进展使工程师和科学家能够基于准确的信息迅速做出决策,最终在各自领域取得更好的成果。尽管有许多优点,使用dynamograph也面临挑战。其中一个重大问题是设备的校准。准确的测量依赖于适当的校准,任何错误都可能导致误导性结果。因此,用户必须认真维护和校准他们的dynamograph,以确保可靠的数据收集。总之,dynamograph是工程、体育科学和生物力学等多个领域的重要工具。它测量和记录动态力量的能力提供了宝贵的见解,有助于技术和人类表现的进步。随着我们不断创新和改进这些设备,dynamograph的潜在应用只会扩大,进一步增强我们对周围物理世界的理解。通过持续的研究和开发,dynamograph的未来承诺将为社会带来更大的益处,使其成为追求知识和进步过程中不可或缺的仪器。
