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Rocket Propulsion in Empty Space - I01:13

Rocket Propulsion in Empty Space - I

2.7K
The driving force for the motion of any vehicle is friction, but in the case of rocket propulsion in space, the friction force is not present. The motion of a rocket changes its velocity (and hence its momentum) by ejecting burned fuel gases, thus causing it to accelerate in the direction opposite to the velocity of the ejected fuel. In this situation, the mass and velocity of the rocket constantly change along with the total mass of ejected gases. Due to conservation of momentum, the...
2.7K
Rocket Propulsion in Gravitational Field - I01:20

Rocket Propulsion in Gravitational Field - I

2.4K
Rockets range in size from small fireworks that ordinary people use to the enormous Saturn V that once propelled massive payloads toward the Moon. The propulsion of all rockets, jet engines, deflating balloons, and even squids and octopuses are explained by the same physical principle: Newton's third law of motion. The matter is forcefully ejected from a system, producing an equal and opposite reaction on what remains.
The motion of a rocket in space changes its velocity (and hence its...
2.4K
Rocket Propulsion in Gravitational Field - II01:03

Rocket Propulsion in Gravitational Field - II

2.0K
A rocket's velocity in the presence of a gravitational field is decreased by the amount of force exerted by Earth's gravitational field, which opposes the motion of the rocket. If we consider thrust, that is, the force exerted on a rocket by the exhaust gases, then a rocket's thrust is greater in outer space than in the atmosphere or on a launch pad. In fact, gases are easier to expel in a vacuum.
A rocket's acceleration depends on three major factors, consistent with the...
2.0K
Acceleration due to Gravity on Other Planets01:24

Acceleration due to Gravity on Other Planets

3.4K
The gravitational acceleration of an object near the Earth's surface is called the acceleration due to gravity. It can be measured by conducting simple experiments on Earth. However, such an experiment is impossible to conduct on the surface of other planets.
Astronomical observations are thus used to measure the acceleration due to gravity on other planets. This can be determined by observing the effect of a planet's gravity on objects close to it. The crucial factor that helps in this...
3.4K
Reduced Mass Coordinates: Isolated Two-body Problem01:12

Reduced Mass Coordinates: Isolated Two-body Problem

2.5K
In classical mechanics, the two-body problem is one of the fundamental problems describing the motion of two interacting bodies under gravity or any other central force. When considering the motion of two bodies, one of the most important concepts is the reduced mass coordinates, a quantity that allows the two-body problem to be solved like a single-body problem. In these circumstances, it is assumed that a single body with reduced mass revolves around another body fixed in a position with an...
2.5K
Torque Free Motion01:15

Torque Free Motion

942
The torque-free motion refers to the movement of a rigid body in space when no external torques are acting upon it. This type of motion can be observed in environments where there are no external forces or frictions, like in outer space. For example, a rotation of Mars in space is a torque-free motion. Mars is an axisymmetric object, meaning it has an axis of symmetry along which it rotates, designated as the z-axis. The rotating frame of reference is defined such that the center of mass of...
942

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関連する実験動画

Updated: May 3, 2026

Optimization, Test and Diagnostics of Miniaturized Hall Thrusters
12:22

Optimization, Test and Diagnostics of Miniaturized Hall Thrusters

Published on: February 16, 2019

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小惑星を牽引するための重力トラクター.

Edward T Lu1, Stanley G Love

  • 1NASA Johnson Space Center, Mail Code CB, Houston, Texas 77058, USA. edward.t.lu@nasa.gov

Nature
|November 11, 2005
PubMed
まとめ

新しい宇宙船の設計は,重力を用いて小惑星を牽引し,軌道を変え,地球を保護する. この方法は,小惑星の組成や自転の影響を受けず,頑丈で,信頼できる惑星防衛戦略を提供します.

科学分野:

  • 惑星科学は惑星科学である.
  • 航空宇宙工学は,航空宇宙工学である.
  • 天体力学は天体力学である.

背景:

  • 小惑星の衝突は地球に重大な脅威をもたらす.
  • 現在の小惑星の傾斜方法には,小惑星の特性に関する制限があります.

研究 の 目的:

  • 小惑星の軌道の変更のための新しい宇宙船設計コンセプトを提案する.
  • 惑星防衛のための重力ベースのトールライン方法を提示する.

主な方法:

  • 宇宙船が小惑星の近くを漂い,その引力を利用している.
  • 推進機の排気は,表面の相互作用を避けるために外に向けられています.
  • この方法は,小惑星の物理的特徴から独立するように設計されています.

主要な成果:

  • 提案された方法は,制御可能な軌道の変更を提供します.
  • 設計は小惑星の構造,表面特性,および自転状態に無感である.
  • このアプローチは,強力な惑星防衛ソリューションを提供します.

結論:

  • 重力トールライン宇宙船コンセプトは,小惑星の傾斜のための実行可能で適応可能な戦略を提示します.

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Last Updated: May 3, 2026

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  • この革新的なアプローチは,潜在的な衝突の脅威に対する惑星の防衛能力を強化します.