According to Wikipedia, the closest elemental densities are:
Dysprosium Dy 8.55 g/cc
Niobium Nb 8.570 g/cc
There are a number of alloys that are in that range depending on the mix:
Brass & Bronze alloys
Nickel alloys
See links.
Density is found by dividing Mass by volume where mass is in grams and volume is in milliliters. 20 liters=20,000 ml so the calculation becomes 158/20,000 which yiels a result of .0079
I am not aware of an elemental metal whose density is around 4.2 grams per ml. However, among common metals, aluminium has a density of 1.7 grams per ml and copper has a density of 9.0 g/ml. Therefore, a suitable alloy of the two would have a density of 4.2 g/ml. Zinc (7.13 g/ml) could also be part of the alloy.
The difference between the new volume and the old volume is 20 ml. This means that the 60.0 g piece of metal had a volume of 20 ml. Density is given by mass / volume, so this metal has a density of 3 g / 1 ml.
The densest elemental metal has a density that is less than half that, so I suspect your question has no sensible answer.
Can't answer this because you have given the mass, but not the volume. Density = mass / volume.
what metal has a density of 5 g/mL
Density is found by dividing Mass by volume where mass is in grams and volume is in milliliters. 20 liters=20,000 ml so the calculation becomes 158/20,000 which yiels a result of .0079
Density = Mass/Volume = 25g/5mL = 5 g per mL
I am not aware of an elemental metal whose density is around 4.2 grams per ml. However, among common metals, aluminium has a density of 1.7 grams per ml and copper has a density of 9.0 g/ml. Therefore, a suitable alloy of the two would have a density of 4.2 g/ml. Zinc (7.13 g/ml) could also be part of the alloy.
Density = mass devided by volume (gram per millilittre)52.9 (g) / [39.3 (ml) - 15.0 (ml)] =52.9 (g) / 24.3 (ml) =2.17 g/mlBy the way, there is no such pure metal with this density:Aluminum: 2.7 g/ml and Beryllium: 1.85 g/ml and only Si in between! (Si 2.33 g/ml, nonmetal)
The difference between the new volume and the old volume is 20 ml. This means that the 60.0 g piece of metal had a volume of 20 ml. Density is given by mass / volume, so this metal has a density of 3 g / 1 ml.
Density = Mass/Volume so Volume = Mass/Density. That is, Vol = 1.5 g/2.3 g/ml = 0.652 ml approx.
The densest elemental metal has a density that is less than half that, so I suspect your question has no sensible answer.
Density = Mass/Volume = 16/2.8 g/mL = 5.714 grams per mL (approx).
4.03 g/cm^3
6 mL = 6 cc (cubic centimetres). Density = Mass/Volume = 57/6 = 9.5 g/cc
Can't answer this because you have given the mass, but not the volume. Density = mass / volume.