dynamicist

简明释义

英[/daɪˈnæməˌsɪst/]美[/daɪˈnæməˌsɪst/]

n. 动力学家，力本论者

英英释义

单词用法

同义词

反义词

例句

1.These cloud vortexes are also called von Kármán cloud streets, for the late fluid dynamicist Theodore von Kármán.

为了纪念已故的流体动力学家西奥多·冯·卡门（Theodore von Kármán），这些云旋也被称为冯·卡门云街（von Kármáncloud streets）。

2.These cloud vortexes are also called von Kármán cloud streets, for the late fluid dynamicist Theodore von Kármán.

为了纪念已故的流体动力学家西奥多·冯·卡门（Theodore von Kármán），这些云旋也被称为冯·卡门云街（von Kármáncloud streets）。

3.As a dynamicist 动力学家, she specializes in modeling complex systems in physics.

作为一名动力学家，她专注于物理学中复杂系统的建模。

4.The research team included a dynamicist 动力学家 who focused on the behavior of particles in motion.

研究小组中包括一位专注于运动粒子行为的动力学家。

5.The dynamicist 动力学家 collaborated with engineers to improve vehicle aerodynamics.

这位动力学家与工程师合作，以改善车辆的气动性能。

6.In his lecture, the dynamicist 动力学家 explained the principles of chaos theory.

在他的讲座中，这位动力学家解释了混沌理论的原理。

7.The dynamicist 动力学家 presented groundbreaking research on fluid dynamics at the conference.

这位动力学家在会议上展示了关于流体动力学的开创性研究。

作文

In the realm of science and engineering, the term dynamicist refers to a specialist who studies and analyzes dynamic systems. These professionals are essential for understanding how forces and motions interact within various physical systems. The role of a dynamicist is crucial in multiple fields, including aerospace, mechanical engineering, and even biomechanics. Their expertise allows them to predict how objects will behave under different conditions, which is vital for designing safe and efficient structures and machines.For instance, consider the construction of a bridge. A dynamicist would analyze the forces acting on the bridge during various scenarios, such as heavy traffic, strong winds, or seismic activity. By using mathematical models and simulations, they can foresee potential problems and suggest modifications to enhance the bridge's stability and safety. This process not only saves lives but also ensures that public infrastructure can withstand the test of time and nature.Moreover, in the field of aerospace engineering, dynamicists play a pivotal role in the design and testing of aircraft. They study the dynamics of flight, including lift, drag, and turbulence. By applying their knowledge, they help engineers create more efficient and safer airplanes. For example, when developing a new aircraft model, a dynamicist will conduct extensive simulations to understand how the aircraft will respond to various flight conditions. This information is critical for optimizing the aircraft’s performance and ensuring passenger safety.In addition to traditional engineering fields, the work of a dynamicist has expanded into emerging areas such as robotics and artificial intelligence. As robots become increasingly integrated into our daily lives, understanding their dynamic behavior becomes essential. A dynamicist can help design robots that move more fluidly and interact safely with humans. This involves not only programming but also an in-depth understanding of physics and dynamics to ensure that these machines operate effectively in real-world environments.Furthermore, the principles of dynamics are not limited to mechanical systems. In the biological sciences, dynamicists analyze the movements of living organisms. For example, studying the dynamics of human movement can lead to advancements in sports science, rehabilitation, and ergonomics. By understanding how muscles and joints interact during movement, a dynamicist can contribute to better training programs and injury prevention strategies.The importance of the work done by dynamicists cannot be overstated. Their ability to model complex interactions and predict outcomes is invaluable across many disciplines. As technology continues to evolve, the demand for skilled dynamicists will likely increase, highlighting the need for education and training in this specialized field. Universities and research institutions are beginning to recognize this need, offering programs that focus on dynamics and its applications in various industries.In conclusion, a dynamicist is a vital contributor to the advancement of technology and safety in our world. Their expertise in analyzing dynamic systems is essential for creating innovative solutions that improve our infrastructure, transportation, and even our understanding of biological processes. As we look to the future, the role of the dynamicist will continue to grow, shaping the way we interact with the physical world around us.

在科学和工程领域，术语dynamicist指的是研究和分析动态系统的专家。这些专业人员对于理解力量和运动如何在各种物理系统中相互作用至关重要。dynamicist的角色在多个领域中都是至关重要的，包括航空航天、机械工程，甚至生物力学。他们的专业知识使他们能够预测物体在不同条件下的行为，这对于设计安全高效的结构和机器至关重要。例如，考虑桥梁的建设。一位dynamicist会分析在各种情况下（如重型交通、强风或地震活动）作用于桥梁的力量。通过使用数学模型和模拟，他们可以预见潜在问题并建议修改以增强桥梁的稳定性和安全性。这个过程不仅挽救生命，还确保公共基础设施能够经受住时间和自然的考验。此外，在航空航天工程领域，dynamicists在飞机的设计和测试中发挥着关键作用。他们研究飞行的动态，包括升力、阻力和湍流。通过应用他们的知识，他们帮助工程师设计更高效和更安全的飞机。例如，在开发新飞机模型时，一位dynamicist将进行广泛的模拟，以了解飞机在各种飞行条件下的反应。这些信息对优化飞机的性能和确保乘客安全至关重要。除了传统的工程领域，dynamicist的工作还扩展到机器人和人工智能等新兴领域。随着机器人越来越多地融入我们的日常生活，理解它们的动态行为变得至关重要。一位dynamicist可以帮助设计出更流畅移动并与人类安全互动的机器人。这不仅涉及编程，还需要对物理和动力学有深入的理解，以确保这些机器在现实环境中有效运作。此外，动力学的原理并不限于机械系统。在生物科学中，dynamicists分析生物体的运动。例如，研究人类运动的动态可以推动体育科学、康复和人机工程学的发展。通过理解肌肉和关节在运动中的相互作用，一位dynamicist可以为更好的训练计划和伤害预防策略做出贡献。dynamicists所做工作的的重要性不容小觑。他们建模复杂交互和预测结果的能力在许多学科中都是无价的。随着技术的不断发展，对熟练的dynamicists的需求可能会增加，这突显了在这一专业领域进行教育和培训的必要性。大学和研究机构开始认识到这一需求，提供专注于动力学及其在各行业应用的课程。总之，dynamicist是我们世界技术和安全进步的重要贡献者。他们在分析动态系统方面的专业知识对于创造创新解决方案以改善我们的基础设施、交通，甚至我们对生物过程的理解至关重要。展望未来，dynamicist的角色将继续增长，塑造我们与周围物理世界的互动方式。