Float. The problem is whether you can find a bathtub big enough for it :D
Scoria is a type of volcanic rock that is typically denser than water, so it will sink in water.
When you place a stick in water, it may float or sink depending on its density. Objects that are less dense than water, like certain sticks, will float, while objects that are more dense will sink. This is due to the buoyant force acting on the stick.
well of course not. Saturn is the second largest planet so the gravitational pull will be too much even on Jupiter has the most gravity so u'd be much more heavier on Jupiter, Saturn, uranus and neptune
This depends on the density of this item: more denser than water-sink, less denser than water-float.
No, the Earth would not float in a bathtub because the Earth is much more massive and dense than water. The force of gravity acting on the Earth's mass would pull it down into the water, causing it to sink.
float dua
An object will sink if it has greater density than water (or whatever liquid it is place in); it will float if it has less density than the liquid.An object will sink if it has greater density than water (or whatever liquid it is place in); it will float if it has less density than the liquid.An object will sink if it has greater density than water (or whatever liquid it is place in); it will float if it has less density than the liquid.An object will sink if it has greater density than water (or whatever liquid it is place in); it will float if it has less density than the liquid.
it will float as long as it is not fully covered water.
Arsenic is denser than water, so it will sink in pure water.
Salt Lake
Yes, a staple can float in water. The reason for this is because it hardly weighs anything, so it won't sink.
A fork will sink in water, as it is denser than water. The density of an object determines whether it will sink or float in water.
Iodine is denser than water, so it will sink in a beaker of water rather than float.
Asphalt is denser than water and will sink in water rather than float.
The matter from Saturn must be less dense than water, which is why it floats, while the matter from Earth is denser than water, causing it to sink. This suggests that the matter from Saturn likely has a composition that differs from the matter found on Earth.
float
Float.