Lithium is the metal with lowest density.
At the bottom of the troposphere
No, solid metal typically sinks in molten metal due to its higher density. When a solid metal is placed on top of molten metal, it will usually sink until it reaches a point where its density is equal to that of the molten metal around it.
Yes, along with Sodium, Potassium, Rubidium, Cesium and Francium, Lithium is an alkali metal.
The Earth's core has the greatest density. The inner core, composed mainly of solid iron and nickel, is even denser than the outer core, making it the densest part of the Earth.
Osmium has. Gold and iridium are up there too. Lead isn't even close.
The greatest metal density is osmium, which has a density of around 22.59 grams per cubic centimeter.
Low Density a Metal?NO!!!!
Every metal has a density.
Steel has the greatest density of the three.
The density of the metal in the crushed can remains the same as the density of the metal before it was crushed. Density is an intrinsic property of a material that does not change with physical alterations like crushing. So, the density of the metal in the can will not change due to the crushing process.
Osmium is the densest naturally occurring mineral. It is a rare platinum metal that is denser than lead and has a density of around 22.59 grams per cubic centimeter.
The Earth has the greatest average density, of all the planets.
If you cut a metal in half, each half will have the same density as the original metal, so the density of each half will still be 8.4. The density of a material does not change when you cut it into pieces.
The density of the metal will remain the same. However because the volume of the object has been reduced the overall density will increase
The density of the metal in a crushed can remains the same as the density of the metal before the can was crushed. The mass of the metal remains constant; only its shape changes when the can is crushed.
how would density of a metal be affected if it were wet
The density of the metal in a crushed can remains the same as the density of the metal before the can was crushed. While the volume of the can decreases when it is crushed, the mass of the metal remains constant. Therefore, the density, which is mass divided by volume, remains unchanged.