Saturn.
It has a mean density of 0.687 g/cm3 which is less than water.
It is impossible to really find out because we cannot measure the mass and volume of a planet, but the most possible is gas planets because gas should not be too dense.
Saturn, because it has an extremely low density, can "float on water if you can find a pool big enough". ~Ripley's Believe it or Not 2010 Special Edition.
Saturn, although you'd have to find a way to keep the atmosphere on it.
The low density of Saturn would allow it to float in liquid water.
Saturn. The planet is less dense than water.
No you would sink fasters as water molecules would be farther apart.
Both your weight and the water pressure would decrease, so it would be the same as on earth. Floating is nothing to do with the size of g, provided it isn't zero, or water pressure. If your density is less than that of water, you will float.
Saturn would float in water if you could find a big enough tub and the water to fill it.
So light it would actually float on water.
Saturn is a gas planet, and if it were possible to place it in water it would float. Not sure if the rings would float, but, the planet itself would.
The low density of Saturn would allow it to float in liquid water.
SATURN.
It will float. Its a rock. It actually depends on how much water you have, if you you tried float it in the ocean, it would obviously sink. But if you tried to float it on a gladd or bowl or water, it would float,
Saturn. The planet is less dense than water.
No, the density of Uranus is 1.27 g/cm3 (the density of water is 1.00 g/cm3), therefore Uranus would sink. The planet that would float in water is the planet Saturn which has a density of 0.687 g/cm3.
Saturn is that planet. It's less dense than water so would float in theory, but it's not a very practicable idea.
Theoretically, the planet Saturn would float when placed in water because it has an average density that is less than the density of water. On the other hand, there is probably not enough water in the solar system to permit the experiment to be performed. If you choose not to consider the planet as a whole, the atmosphere would float on the water but the rocky core would sink like a stone.
Saturn..... amazing isn't it!
Saturn. Obviously it's not a very practical idea, but Saturn is less dense than water.
Saturn (the planet) would float if you could find anything large enough for it to float in. The density of Saturn is 0.687 g/cm³ which is less than water. However, the density of Saturn (the planet) is always calculated as the "mean density", indicating that the mass of the core, water, and gasses are all combined to provide the total mass of the planet, and the volume, including the gas mantle is used to calculate mean density. Naturally the gas mantle will float, since it is significantly less dense than water, but if the planet were placed in a theoretical container of water, the gas would no longer be a significant part of the process, and the core of the planet would sink. So... it depends on how you're deciding whether the planet will float. Are you putting a large balloon around it then putting it into the theoretical container of water? Yes, it will float if that's what you're doing. But if the gas of the planet is allowed to act as a gas, everything changes... you decide. Saturn (the vehicle) would float briefly, while the windows and doors are closed, but as air is displaced, water would fill the inside of the vehicle and it would sink. If you wanted to fill the interior with beach balls or something else that would hold air... it would probably float.