magnetohydrodynamic

「magnetohydrodynamic」的意思

adj. 磁流体动力的

mA^`ni:tE9haIdrEJdaI`nAmIJ9haIdrEJdaI`nAmk/adj.[物]磁流体Iks/[复]n.[用作刀(学)的

magnetohydrodynamic磁流体动力学 - 在物理学中，磁流体动力学研究的是带电粒子在磁场和重力作用下的运动。

Magnetohydrodynamic simulations are used to study the behavior of plasmas in stars and fusion reactors.

磁流体动力学模拟用于研究恒星和聚变反应堆中的等离子体行为。

The magnetohydrodynamic properties of the plasma determine its behavior in magnetic fields.

等离子体的磁流体动力学性质决定了它在磁场中的行为。

Understanding magnetohydrodynamics is crucial for designing fusion reactors.

理解磁流体动力学对于设计聚变反应堆至关重要。

Magnetohydrodynamic waves can be observed in the sun's atmosphere.

太阳大气中可以观察到磁流体波动。

The interaction between plasma and magnetic fields is a key aspect of magnetohydrodynamics.

等离子体与磁场的相互作用是磁流体动力学的关键方面。

Magnetohydrodynamic effects can be seen in the dynamics of stars and galaxies.

磁流体力学效应可以在恒星和星系的动力学中看到。

Magnetohydrodynamic processes play a significant role in astrophysical phenomena.

磁流体力学过程在天文学现象中起着重要作用。

The study of magnetohydrodynamics helps us understand the behavior of matter under extreme conditions.

研究磁流体动力学有助于我们理解物质在极端条件下的行为。

Magnetohydrodynamic simulations are essential for predicting solar storms and their impacts on Earth’s magnetic field.

磁流体动力学模拟对于预测太阳风暴及其对地球磁场的影响至关重要。

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