Yes, everything in the universe with mass has a gravitational pull, according to the law of universal gravitation formulated by Sir Isaac newton.
False. Weight is not constant everywhere in the universe because it depends on the gravitational force acting on an object. Weight can vary depending on the gravitational pull of a celestial body.
The acceleration of the universe's expansion is believed to be caused by a mysterious force called dark energy. This force is thought to counteract the gravitational pull of matter, causing the universe to expand at an increasing rate.
Black holes have the strongest gravitational pull in the universe due to their incredibly high density and mass. Their gravitational force is so intense that not even light can escape from them, causing objects near them to be pulled in with immense force.
Attraction of objects in the universe depends on their mass and the distance between them. The greater the mass of an object, the stronger its gravitational pull on other objects. Similarly, the closer two objects are to each other, the stronger the gravitational attraction between them.
The gravitational force of black holes is extremely strong due to their immense mass and density. This force is so powerful that not even light can escape from a black hole's gravitational pull, making them some of the most mysterious and fascinating objects in the universe.
Yes, everything in the cosmos has a gravitational pull on everything else.
Gravitational pull is a force that has an affect on absolutely everything in this universe
Gravitation is "universal" every particle of mass in the universe is attracted to every OTHER particle of mass. So, "everything".
A closed universe with enough matter to generate sufficient gravitational pull may stop expanding and eventually begin to contract, leading to a "big crunch" scenario where everything collapses back into a singularity. This contraction is driven by the gravitational attraction of matter in the universe pulling everything back together.
Yes, according to newton's law of universal gravitation everything within the universe gravitationally attracts every other mass in the universe.. the point of this question is questionable though.
Not only planets but everything with mass, no matter how large or small, has a gravitational effect.
gravitational pull..also for all we know is that the universe goes on for ever maybe you meam the solar system?
Yes, every object in the universe has a gravitational pull on every other object. However, Neptune is so much smaller than the Sun, and so much farther away, that Neptune's gravitational pull on Mercury will be unmeasurably small.
The force that pulls everything to the centre of the earth.
If it didn't everything in the universe would have gone flying apart long ago and there would be no universe!
All objects everywhere in the universe have a gravitational pull.
Gravity is determined by mass. Everything with mass has gravitational pull (including you). Planets with more mass have higher gravitational pulls