slower-than-light travel
低於光速旅行
moving slower-than-light
以低於光速移動
slower-than-light communication
低於光速通訊
much slower-than-light
遠低於光速
potentially slower-than-light
可能低於光速
slower-than-light speed
低於光速速度
being slower-than-light
處於低於光速狀態
relatively slower-than-light
相對低於光速
slower-than-light limit
低於光速限制
our interstellar probes are designed to travel at slower-than-light speeds.
我們的星际探测器設計用於以低於光速的速度旅行。
reaching distant stars requires accepting the limitations of slower-than-light travel.
抵達遙遠的恆星需要接受低於光速旅行的限制。
the faster-than-light paradox highlights the challenges of exceeding slower-than-light constraints.
超光速悖論突顯了超越低於光速限制的挑戰。
even with advanced propulsion, achieving faster-than-light speeds remains a slower-than-light problem.
即使擁有先進推進技術,實現超光速仍是一個低於光速的問題。
relativistic effects become noticeable at speeds approaching slower-than-light limits.
當速度接近低於光速的極限時,相對論效應變得明顯。
interstellar communication is inherently limited by the slower-than-light speed of radio waves.
星际通信本質上受到電磁波低於光速的限制。
the concept of slower-than-light travel is fundamental to our understanding of physics.
低於光速旅行的概念是我們理解物理學的基礎。
designing a mission profile necessitates careful consideration of slower-than-light travel times.
設計任務剖面需要仔細考慮低於光速的旅行時間。
the vast distances involved mean that even near-slower-than-light speeds are lengthy.
涉及的巨大距離意味著即使接近低於光速的速度也是漫長的。
current space travel is exclusively slower-than-light, relying on conventional propulsion systems.
目前的太空旅行完全依賴低於光速,依靠常規推進系統。
the implications of faster-than-light travel versus slower-than-light travel are profound.
超光速旅行與低於光速旅行的影響是深遠的。
slower-than-light travel
低於光速旅行
moving slower-than-light
以低於光速移動
slower-than-light communication
低於光速通訊
much slower-than-light
遠低於光速
potentially slower-than-light
可能低於光速
slower-than-light speed
低於光速速度
being slower-than-light
處於低於光速狀態
relatively slower-than-light
相對低於光速
slower-than-light limit
低於光速限制
our interstellar probes are designed to travel at slower-than-light speeds.
我們的星际探测器設計用於以低於光速的速度旅行。
reaching distant stars requires accepting the limitations of slower-than-light travel.
抵達遙遠的恆星需要接受低於光速旅行的限制。
the faster-than-light paradox highlights the challenges of exceeding slower-than-light constraints.
超光速悖論突顯了超越低於光速限制的挑戰。
even with advanced propulsion, achieving faster-than-light speeds remains a slower-than-light problem.
即使擁有先進推進技術,實現超光速仍是一個低於光速的問題。
relativistic effects become noticeable at speeds approaching slower-than-light limits.
當速度接近低於光速的極限時,相對論效應變得明顯。
interstellar communication is inherently limited by the slower-than-light speed of radio waves.
星际通信本質上受到電磁波低於光速的限制。
the concept of slower-than-light travel is fundamental to our understanding of physics.
低於光速旅行的概念是我們理解物理學的基礎。
designing a mission profile necessitates careful consideration of slower-than-light travel times.
設計任務剖面需要仔細考慮低於光速的旅行時間。
the vast distances involved mean that even near-slower-than-light speeds are lengthy.
涉及的巨大距離意味著即使接近低於光速的速度也是漫長的。
current space travel is exclusively slower-than-light, relying on conventional propulsion systems.
目前的太空旅行完全依賴低於光速,依靠常規推進系統。
the implications of faster-than-light travel versus slower-than-light travel are profound.
超光速旅行與低於光速旅行的影響是深遠的。
探索常見搜尋詞彙