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Rocket Propulsion in Empty Space - I01:13

Rocket Propulsion in Empty Space - I

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 rocket's...
Rocket Propulsion In Empty Space - II01:12

Rocket Propulsion In Empty Space - II

The motion of a rocket is governed by the conservation of momentum principle. A rocket's momentum changes by the same amount (with the opposite sign) as the ejected gases. As time goes by, the rocket's mass (which includes the mass of the remaining fuel) continuously decreases, and its velocity increases. Therefore, the principle of conservation of momentum is used to explain the dynamics of a rocket's motion. The ideal rocket equation gives the change in velocity that a rocket experiences by...
Rocket Propulsion in Gravitational Field - II01:03

Rocket Propulsion in Gravitational Field - II

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 equation for the...
Acceleration due to Gravity on Other Planets01:24

Acceleration due to Gravity on Other Planets

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...
Circular Orbits and Critical Velocity for Satellites01:16

Circular Orbits and Critical Velocity for Satellites

The Moon orbits around the Earth. In turn, the Earth (and other planets) orbit the Sun. The space directly above our atmosphere is filled with artificial satellites in orbit. One can examine the circular orbit, the simplest kind of orbit, to understand the relationship between the speed and the period of planets and satellites with respect to their positions and the bodies that they orbit.
Nicolaus Copernicus (1473-1543) first suggested that the Earth and all other planets orbit the Sun in...
Energy of a Satellite in a Circular Orbit01:11

Energy of a Satellite in a Circular Orbit

Thousands of artificial satellites orbit the Earth every day at various distances from the Earth. Satellites that orbit the Earth below an altitude of 1,600 km are considered to be orbiting in low-Earth orbit (LEO). Research satellites and Earth observation satellites are usually placed in LEO, and mostly orbit the Earth in elliptical orbits. Navigation satellites are placed in medium-Earth orbit (MEO), ranging from 2,000 km to 36,000 km from the surface of the Earth. Meanwhile, communication...

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関連する実験動画

Updated: Jul 11, 2026

Experimental Methods of Dust Charging and Mobilization on Surfaces with Exposure to Ultraviolet Radiation or Plasmas
07:54

Experimental Methods of Dust Charging and Mobilization on Surfaces with Exposure to Ultraviolet Radiation or Plasmas

Published on: April 3, 2018

太陽系探査:NASAはコストの上昇,キャンセルを非難

A Lawler

    Science (New York, N.Y.)
    |September 6, 2007
    PubMed
    まとめ

    NASA NASA NASA NASAは,アメリカ合衆国の宇宙飛行機関である.

    科学分野:

    • 惑星科学は惑星科学である.
    • 天体物理学 天体物理学
    • 宇宙探査 宇宙探査

    背景:

    • NASAは最近,小惑星ローバーの小型ミッションをキャンセルした.
    • ミッションの資金調達と範囲に関する惑星科学コミュニティ内の懸念.
    • 太陽系外部の探査におけるこれまでの成功と課題.

    研究 の 目的:

    • NASAのプロジェクト中止が地球科学コミュニティに与える影響を分析するために.
    • 米国の宇宙計画におけるコストの上昇の根本原因を調査する.
    • 米国の太陽系外部の探査戦略の再評価を提案する.

    主な方法:

    • 任務のキャンセルに対するコミュニティの反応の分析.
    • 最近のNASAミッションのプロジェクト管理と財務データのレビュー.
    • 将来の宇宙探査の優先事項に関する専門家の意見をまとめました.

    主要な成果:

    • キャンセルに関する惑星科学者からの広範な批判.
    • 米国の宇宙計画における主要な障害として,コストの螺旋的な上昇を特定する.
    • 外部太陽系イニシアチブの包括的な見直しのためのコンセンサス.

    さらに関連する動画

    Experimental Methods for Efficient Solar Hydrogen Production in Microgravity Environment
    11:38

    Experimental Methods for Efficient Solar Hydrogen Production in Microgravity Environment

    Published on: December 3, 2019

    Thermocapillary Convection Space Experiment on the SJ-10 Recoverable Satellite
    07:00

    Thermocapillary Convection Space Experiment on the SJ-10 Recoverable Satellite

    Published on: March 11, 2020

    関連する実験動画

    Last Updated: Jul 11, 2026

    Experimental Methods of Dust Charging and Mobilization on Surfaces with Exposure to Ultraviolet Radiation or Plasmas
    07:54

    Experimental Methods of Dust Charging and Mobilization on Surfaces with Exposure to Ultraviolet Radiation or Plasmas

    Published on: April 3, 2018

    Experimental Methods for Efficient Solar Hydrogen Production in Microgravity Environment
    11:38

    Experimental Methods for Efficient Solar Hydrogen Production in Microgravity Environment

    Published on: December 3, 2019

    Thermocapillary Convection Space Experiment on the SJ-10 Recoverable Satellite
    07:00

    Thermocapillary Convection Space Experiment on the SJ-10 Recoverable Satellite

    Published on: March 11, 2020

    結論:

    • この取消は,米国の惑星科学資金のシステム上の問題を強調している.
    • 太陽系外部の探査の将来を確保するために,戦略的再評価が緊急に必要である.
    • コスト超過に対処し,科学的競争力を維持するために,協力的な努力が必要です.