we would probably die
The gravitational pull between earth and the spacecraft will become insignificant.
If Jupiter's mass were doubled, its gravitational pull would be significantly stronger. This would likely result in greater pressure at its core, potentially leading to increased temperature and nuclear fusion. Additionally, its size and orbit may be affected, which could have gravitational consequences on other nearby planets in the solar system.
Yes, if the Sun's gravity increased, the Earth's orbit would become more elliptical, affecting the seasons and potentially the stability of Earth's climate. The increased gravitational pull could also lead to changes in the Earth's rotation speed and tidal patterns.
An object have greater gravitational pull closer from earth. As we get farther from earth, the gravitational pull becomes weaker. That is why objects sufficiently away from the earth do not fall on it.
Replacing the Moon with an object the mass of Jupiter would result in drastic changes to Earth's orbit and tides. The gravitational pull would be much stronger, causing significant disruption to Earth's climate, tides, and possibly even its rotation. The increased gravitational forces could lead to catastrophic consequences for life on Earth.
All obects have a gravitational pull. The larger it is, the stronger the pull.
The moon's gravitational pull
If an object had limitless weightlessness, it would essentially have no mass and therefore no gravitational pull. This means it would not be affected by gravity and would float freely in space without being bound by the gravitational pull of any celestial body.
Yes, It has a strong gravitational pull. Without the gravitational pull, none of the planets would orbit it.
Gravity increases from 9.789 m·s−2 at the equator to 9.832 m·s−2 at the poles. This is because of the equatorial bulge and the difference in centrifugal forces. Answer: Equator
Then we all will die
To escape Jupiter's gravitational pull, a rocket would need to achieve escape velocity, which depends on the planet's mass and size. Jupiter's strong gravitational pull requires the rocket to reach a higher speed compared to escaping a smaller body like Earth. This increased speed allows the rocket to overcome Jupiter's gravitational force and not fall back onto the planet.
this answer is false because when you go into space you start to float. So the answer is false. You loose the gravitational pull not gain gravitational pull.
It would drift out into space at a constant speed along the tangent to its orbit when gravity stopped.
If the gravity in our solar system increased, all objects, including planets and moons, would experience greater gravitational pull. This would likely result in faster orbits, stronger tidal forces, and potential disruptions to celestial bodies and their orbits. The increased gravity could also impact the habitability of planets by affecting their atmospheres and surface conditions.
The gravitational pull between earth and the spacecraft will become insignificant.
The mass would be the same where ever you go in the universe