Yes. And the question is ...
The sphere is certainly not made of a common metal. It could be Europium or an alloy or common elements.
If the water is at standard temperature and pressure (25 degrees Celsius and one atmosphere), the water has density of 1 kilogram per liter. When submerged, the metal displaces its own volume of water. Therefore, the volume of the metal is 1 liter, and the density of the metal is 6 kg/liter.
The metal block's density is about 13.636 g/cm3
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As far as I am aware, there is no elemental metal with a density of 9.5 g per cm3. Thulium (9.32) is followed by Bismuth (9.75). But I presume that you can alloy one or metals with density lower than 9.5 and one or more with higher density.
Density = Mass/Volume = 25g/5mL = 5 g per mL
A metal sphere is found to have a density of 5.2 g/cm cubed at 25 degrees Celseus and a density of 5.1 g/cm cubed at 50 degrees Celseus.
The density of hafnium metal is 13,31 g/cm3.
For an uranium metal density of 19.05 g/cm3 the sphere radius 1s 19,59 cm.
This is a sphere made from a metal.
Every metal has a density.
Low Density a Metal?NO!!!!
Low Density a Metal?NO!!!!
If the water is at standard temperature and pressure (25 degrees Celsius and one atmosphere), the water has density of 1 kilogram per liter. When submerged, the metal displaces its own volume of water. Therefore, the volume of the metal is 1 liter, and the density of the metal is 6 kg/liter.
weight the metal ball first. then fill a graduated cylinder with water- it doesnt really matter how much, and put the metal ball in the water. measure how much the water level has increased by in mL. take the mass, and divide by the mL of water and then you get the density. ++ If it's an accurate sphere you can also measure its diameter and so calculate the volume, from which and the mass you can calculate the density.
Anything made of metal, basically - for example, spoons and forks, metal containers, etc.
The density of the metal doesn't change when you crush a can.
what metal has a density of 5 g/mL