Bromine will usually sink in water depending on the dose. Let's say you add 1.0mL of Bromine in water. This will sink because it is denser than water. If you add a lesser dose, it might float.
Boron density: 2,08 g/cm3 Water density: 1 g/cm3
No, feldspar does not float in water because it is more dense than water. When placed in water, feldspar will sink to the bottom.
Asphalt is denser than water and will sink in water rather than float.
B + 3F [arrow] BF3 Boron and fluorine yield boron (III) fluoride.
Nitrogen gas will neither sink nor float in water because it is less dense than water and doesn't have a liquid state at room temperature. It will just mix and dissolve in the water, creating a solution. So, in short, nitrogen won't sink or float, it will just hang out in the water like a party crasher.
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,
A styrofoam cup will float in water because styrofoam is less dense than water, causing it to displace water and float.
A Rock would obviously sink in water and a egg would float in salt water Believe it or not bowling balls that are denser than water float!
No.
no
A cork would float in water because it is less dense than water. This means that the cork displaces an amount of water equal to its weight, causing it to float on the surface of the water.
You can float in sea water due to its buoyancy from the salt content. However, you would not float in glucose because it is denser than water.
It will sink in water, but it will float in mercury. Depends on what the liquid is.
Saturn is less dense than water. So the Answer is Saturn.
Gold is a very dense metal, so it would sink in water rather than float.
Yes, a block of wood would typically float on top of water because wood is less dense than water. This means that the weight of the wood is less than the weight of the water it displaces, causing it to float.
Under normal circumstances boron does not react with water.