magnetohydrodynamics theory
磁流体动力学理论
magnetohydrodynamics flow
磁流体动力学流动
magnetohydrodynamics equations
磁流体动力学方程
magnetohydrodynamics modeling
磁流体动力学建模
magnetohydrodynamics applications
磁流体动力学应用
magnetohydrodynamics instability
磁流体动力学不稳定性
magnetohydrodynamics waves
磁流体动力学波
magnetohydrodynamics research
磁流体动力学研究
magnetohydrodynamics phenomena
磁流体动力学现象
magnetohydrodynamics simulations
磁流体动力学模拟
magnetohydrodynamics is the study of the behavior of electrically conducting fluids.
磁流体动力学是研究导电流体行为的学科。
scientists use magnetohydrodynamics to understand plasma behavior in fusion reactors.
科学家们利用磁流体动力学来理解聚变反应堆中等离子体的行为。
magnetohydrodynamics plays a crucial role in astrophysics, particularly in studying stars.
磁流体动力学在天体物理学中发挥着至关重要的作用,尤其是在研究恒星时。
research in magnetohydrodynamics can lead to advancements in space propulsion systems.
磁流体动力学的研究可以推动航天推进系统的进步。
understanding magnetohydrodynamics is essential for developing better electromagnetic pumps.
理解磁流体动力学对于开发更好的电磁泵至关重要。
magnetohydrodynamics can help improve the efficiency of energy conversion processes.
磁流体动力学可以帮助提高能源转换过程的效率。
many engineers specialize in magnetohydrodynamics to innovate in fluid dynamics.
许多工程师专注于磁流体动力学,以在流体动力学中进行创新。
magnetohydrodynamics is applied in various fields, including meteorology and engineering.
磁流体动力学应用于多个领域,包括气象学和工程学。
advanced simulations in magnetohydrodynamics can predict the behavior of cosmic phenomena.
磁流体动力学中的高级模拟可以预测宇宙现象的行为。
studying magnetohydrodynamics requires a strong foundation in both physics and mathematics.
研究磁流体动力学需要扎实的物理学和数学基础。
magnetohydrodynamics theory
磁流体动力学理论
magnetohydrodynamics flow
磁流体动力学流动
magnetohydrodynamics equations
磁流体动力学方程
magnetohydrodynamics modeling
磁流体动力学建模
magnetohydrodynamics applications
磁流体动力学应用
magnetohydrodynamics instability
磁流体动力学不稳定性
magnetohydrodynamics waves
磁流体动力学波
magnetohydrodynamics research
磁流体动力学研究
magnetohydrodynamics phenomena
磁流体动力学现象
magnetohydrodynamics simulations
磁流体动力学模拟
magnetohydrodynamics is the study of the behavior of electrically conducting fluids.
磁流体动力学是研究导电流体行为的学科。
scientists use magnetohydrodynamics to understand plasma behavior in fusion reactors.
科学家们利用磁流体动力学来理解聚变反应堆中等离子体的行为。
magnetohydrodynamics plays a crucial role in astrophysics, particularly in studying stars.
磁流体动力学在天体物理学中发挥着至关重要的作用,尤其是在研究恒星时。
research in magnetohydrodynamics can lead to advancements in space propulsion systems.
磁流体动力学的研究可以推动航天推进系统的进步。
understanding magnetohydrodynamics is essential for developing better electromagnetic pumps.
理解磁流体动力学对于开发更好的电磁泵至关重要。
magnetohydrodynamics can help improve the efficiency of energy conversion processes.
磁流体动力学可以帮助提高能源转换过程的效率。
many engineers specialize in magnetohydrodynamics to innovate in fluid dynamics.
许多工程师专注于磁流体动力学,以在流体动力学中进行创新。
magnetohydrodynamics is applied in various fields, including meteorology and engineering.
磁流体动力学应用于多个领域,包括气象学和工程学。
advanced simulations in magnetohydrodynamics can predict the behavior of cosmic phenomena.
磁流体动力学中的高级模拟可以预测宇宙现象的行为。
studying magnetohydrodynamics requires a strong foundation in both physics and mathematics.
研究磁流体动力学需要扎实的物理学和数学基础。
探索常用高频词汇