3.18 g/cm3
Reference: "Water-gas shift reaction on a cobalt-molybdenum oxide catalyst" by R. Hakkarainen, T. Salmi & R.L. Keiski; Published 1993 by Abo Akademi and University of Oulu.
The density of the metal cobalt is rho = 8900 kg/m3 or rho = 8.9 g/cm3.
8.75
it has specfic gravity
8.75 there.
A cubic foot of Copper weighs 550 pounds and has a specific gravity of nearly 9. A cubic foot of Tin weighs 450 pounds and has a specific gravity of 7.29. So, Copper is more dense than Tin.
There is no such thing as a specific gravity for any element.
Head pressure=specific gravity*1000*gravity*height. Therefore if specific gravity is increased head pressure will increase.
Oil has the highest specific gravity. Water has the second.
what is the specific gravity,luster,transparency,streak,cleavage,and fracture of barium?
The same as the specific gravity for copper which is 8930. It doesn't matter what shape the copper is made into... it still has the same specific gravity.
It depends on the concentration.
It is the inverse of the specific gravity of copper.
556 lb/ cu ft
Gravity is constant. It does not change based on the element, only the relative distance from the a specific body can reduce the effect of gravity (moving away from the earth lessens its gravitational pull on an object).
75ml x 8.89 specific gravity copper = 666.75 grammes 1000ml x 0.69 specific gravity benzine = 690 grammes The 1.0 litre of benzine has more mass than 75 millilitres of copper.
Since the specific gravity of copper is 8.95, the volume of 126 grams of copper is 14.08 cubic centimeters (126/8.95 cm3).
A cubic foot of Copper weighs 550 pounds and has a specific gravity of nearly 9. A cubic foot of Tin weighs 450 pounds and has a specific gravity of 7.29. So, Copper is more dense than Tin.
The specific gravity of diamond is 3.5, which is 'above average'.
There is no such thing as a specific gravity for any element.
Aluminum has no specific gravity, at least by the current definition of gravity.
helium doesn't have a specific gravity