Gravity bends time,space and light, so the first thing that's certain is that we won't see stars because their light bends around earth.
Light from stars would reach our planet even if the force of gravity increased by a factor of a thousand. The curving of a path of light by mass is inward TOWARDS that mass.
The main effect would be that everything would weigh more -- animal, vegatable, and mineral. Animals without sufficient muscle strength to overcome the increased weight would not be able to move. Plants and rock formations that could not sustain the added weight would fall to the surface.
Mars has about 38% of Earth's gravity, meaning that objects on Mars weigh less than they do on Earth. For example, if you weigh 100 pounds on Earth, you would weigh about 38 pounds on Mars.
Yes, the gravity on Venus is about 91% of the gravity on Earth. So, a human on Venus would not be significantly squashed by the gravity, but they would feel heavier than on Earth due to the increased gravitational force.
In zero gravity, buoyancy would not be present as there is no gravity to create the force that causes objects to float in a fluid. Objects would not experience an apparent weight loss or loss of buoyancy in zero gravity.
The surface gravity on Io is very low compared to Earth, due to its low mass, around 0.183g or 18.3% of the Earths pull at the surface. this is just a little more than the surface gravity on our own moon, which is about 16.5% of earths pull.
In a low-gravity area, it would generally be easier to do activities that involve moving or lifting objects, as there is less force pulling you down. In a high-gravity area, it would be more challenging to move or lift objects due to the increased force of gravity pulling you down.
Earth's Gravity would pull it straight down to earths surface.
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.
no
Gravity is inversely proportional to the square of the distances between two objects, therefore if the distance was increased by a factor of ten, the gravity would decrease by a factor of one hundred.
Mercury has a surface gravity that is about 38% that of Earth's. This means that you would weigh less on Mercury compared to Earth due to its weaker gravitational pull.
closest to the Earths inside like the core
The surface gravity on Mars is the weakest, it is 37.6% of Earths.
The gravity on the moon is about 1/6th of the gravity on Earth. This means that if you weigh 100 pounds on Earth, you would weigh about 16.6 pounds on the moon.
If the moon suddenly decided to stop pusing forward (inertia), the balance between inertia and the earths gravity would cease and the moon would come crashing into us. :)
If there was no gravity, the Sun and and the planets would never have formed.
Your would weigh 1/6th as much as you do here on mother Earth. The how is our moons' mass, and therefore its' gravity, is about 1/6 as much as the Earths'. Its' gravity well is not as deep as the Earths.
I would guess about 10 days in a hyperbolic time chamber at 100x earths gravity. I would guess about 10 days in a hyperbolic time chamber at 100x earths gravity.