Look up the density of steel. It should be no different in a spaceship than on Earth.
The density is not affected by gravity. it is a measure of a substances mass to volumn. Therefor the density of a steel hammer on a spaceship is the same as one on earth (approx 7850 kg/m^3)
The density of the hammer is the same no matter where it is. Density = Mass / volume. Neither Mass nor volume is dependent on gravity there for Density is also independent of gravity.
You can, but only if you know the density (or specific gravity) of the steel. Since steel is an alloy, its density is variable - depending on the other substances and their proportions in the alloy.
Density does not change regardless of where the object is. It is a constant.
Depends, of course, on the density of the steel.
The density is not affected by gravity. it is a measure of a substances mass to volumn. Therefor the density of a steel hammer on a spaceship is the same as one on earth (approx 7850 kg/m^3)
The density of the hammer is the same no matter where it is. Density = Mass / volume. Neither Mass nor volume is dependent on gravity there for Density is also independent of gravity.
mass dose not change on a spaceship
yes
Steel has the greatest density of the three.
The ball used in hammer throw is made of steel.
The density of steel as per IS 2062 will vary. This is because steel's density typically changes with composition.
The density of aluminized steel is 2710. Additionally, the density of its counterpart, carbon steel, is slightly different at 2833.
density of galvanized steel 7850kg/m3
density of galvanized steel 7850kg/m3
It is made of steel and weighs about 16 pounds
steel