arthromeres are essential for understanding joint movements.
关节体对于理解关节运动至关重要。
scientists study arthromeres to improve orthopedic treatments.
科学家研究关节体以改善骨科治疗。
the structure of arthromeres can vary among different species.
关节体的结构在不同物种之间可能有所不同。
researchers are exploring the function of arthromeres in biomechanics.
研究人员正在探索关节体在生物力学中的功能。
understanding arthromeres helps in the design of prosthetics.
理解关节体有助于假肢的设计。
arthromeres play a crucial role in the flexibility of limbs.
关节体在肢体的灵活性中起着关键作用。
the study of arthromeres can lead to advancements in robotics.
对关节体的研究可以推动机器人技术的发展。
arthromeres are often examined in evolutionary biology.
关节体常常在进化生物学中被研究。
injuries to arthromeres can significantly affect mobility.
关节体的损伤会显著影响移动能力。
the interaction of muscles and arthromeres is complex.
肌肉与关节体的相互作用是复杂的。
arthromeres are essential for understanding joint movements.
关节体对于理解关节运动至关重要。
scientists study arthromeres to improve orthopedic treatments.
科学家研究关节体以改善骨科治疗。
the structure of arthromeres can vary among different species.
关节体的结构在不同物种之间可能有所不同。
researchers are exploring the function of arthromeres in biomechanics.
研究人员正在探索关节体在生物力学中的功能。
understanding arthromeres helps in the design of prosthetics.
理解关节体有助于假肢的设计。
arthromeres play a crucial role in the flexibility of limbs.
关节体在肢体的灵活性中起着关键作用。
the study of arthromeres can lead to advancements in robotics.
对关节体的研究可以推动机器人技术的发展。
arthromeres are often examined in evolutionary biology.
关节体常常在进化生物学中被研究。
injuries to arthromeres can significantly affect mobility.
关节体的损伤会显著影响移动能力。
the interaction of muscles and arthromeres is complex.
肌肉与关节体的相互作用是复杂的。
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