Mass = 40 grams
Volume = L x W x H = 8 cm3
Density = mass/volume = 5 grams/cm3
It depends on a number of factors including the thickness of the bat, the density (or specific gravity) of the metal, whether the bat is solid or hollow, etc.
density = mass ÷ volume = 30 g ÷ 10 cm3 = 3 g/cm3
It could be a solid object made with a mixture of materials whose average density is 5 grams per cm3 or it could be a hollow object made with materials whose density is higher.
density = mass/volume = 150g/9.8cm3 =~15.3g/cm3 =~15g/cm3 (assuming volume of 9.8cm means 9.8 cubic centimeters)
The units for the volume if you are measuring any liquid or solid is metre^3/cm^3 as density = mass/volume. The units for mass is grams
The solid element that has the lowest density is lithium. Its density is 0.534 grams per cubic centimeters. Lithium is a metal, and it does not occur freely in nature.
Tantalum is a chemical element with the atomic number of 73. It is a transition metal with the solid density of 16.69 grams per cubic centimeter and a liquid density of 15 grams per cubic centimeter.
It depends on a number of factors including the thickness of the bat, the density (or specific gravity) of the metal, whether the bat is solid or hollow, etc.
It depends on a number of factors including the thickness of the bat, the density (or specific gravity) of the metal, whether the bat is solid or hollow, etc.
At room temperature californium is a solid metal.
Density is Mass/Volume. Since the mass is 65.1grams and the volume is 43.1cm, the density is 65.1/43.1 grams per cm. So the answer is 1.51044 grams/cm
No, the density of beryllium is 1,85 g/cm3.
The density of pure uranium metal at 20 0C is 19,06 g/cm3.
Each metal has a unique, characteristic density. Aluminum metal is of much lower density than iron, for example--something that you can readily observe if you have equal-volume solid blocks of each metal. The iron will be obviously more massive. Density of any metal varies a small amount with temperature--increasing as temperature increases, so for complete accuracy assume the above applies to solid samples of metal at the same temperature. Each metal has a unique, characteristic density. Aluminum metal is of much lower density than iron, for example--something that you can readily observe if you have equal-volume solid blocks of each metal. The iron will be obviously more massive. Density of any metal varies a small amount with temperature--increasing as temperature increases, so for complete accuracy assume the above applies to solid samples of metal at the same temperature.
It is 3 grams per cm^3.
lead is a metal, solid, and high in density
Density is the mass divided by volume. You need to know its volume to get its density