There is no metal with that density. The closest would be the beta allotrope of the radioactive metalloid polonium (element 84) : 9.38 g/cm3.
Other close matches would be
Bismuth - 9.76 g/cm3
Lutetium - 9.84 g/cm3
Thulium - 9.32 g/cm3
A number of metal alloys could have a density of 9.33 grams/cm3. Of the elements, the pair that come closest to this figure are thulium (Tm) with a density of 9.321 g/cm3, and polonium (Po) with a density of 9.32 g/cm3.
It is not a good laboratory practice to identify or confirm metals only based on density measurements it is far too insecure and inaccurate.
Some (sorted from 2.5 to 3.5 g/mL) table figures shows why:
Extra: metals often appear to be impured by other metals and also often as alloys (deliberately made mixtures)
Its silver man ... silver
acrilic titanium phorite
semian
The density of silver would be 10.5 grammes per mL. Therefore 2500 grammes of silver = 2500 / 10.5 = 238.095238 mL in volume.
17
density = mass/volume,so the density of your metal is:25/10 = 2.5g/cm3 (grams per cm cubed)
Density is measured in grams per cubic centimetre, or g/cm3. The densest metal on the periodic table is Osmium, closely followed by Iridium, the difference is minute.
Mass = [ gram ]Volume = [ cm3 ]Density = [ gram per cm3 ]
Density is grams per cm3. 615/105 = 5.86 g/cm3
If its mass is 0.6 g and its volume is 1 cm3 , then its density is 0.6 g per cm3 .
The density of silver would be 10.5 grammes per mL. Therefore 2500 grammes of silver = 2500 / 10.5 = 238.095238 mL in volume.
17
Density = (mass) / (volume)= (357 gm) / (3.01 cm)3= 13.091 gram per cm3
density = mass/volume,so the density of your metal is:25/10 = 2.5g/cm3 (grams per cm cubed)
Density is measured in grams per cubic centimetre, or g/cm3. The densest metal on the periodic table is Osmium, closely followed by Iridium, the difference is minute.
Density = Mass/Volume = 17/4 = 4.25 grams per cm3
Density = mass/volume = 5/12 = 0.4166... gms per cm3. This figure is well below the density of lithium, the least dense of metallic elements.
Mass = [ gram ]Volume = [ cm3 ]Density = [ gram per cm3 ]
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.
The density of water is 1 gram per cm3 .