The question is incomplete, complete question is:
A fluid occupying [tex]3.2 m^3[/tex] of volume has a mass of 4 Mg. Calculate its density and specific volume in SI, EE, and BG units.
Explanation:
1) Mass of liquid = m = 4 Mg = 4 × 1,000 kg = 4,000 kg
(1 Mg = 1000 kg)
Volume of the fluid = V = [tex]3.2 m^3[/tex]
Density of the fluid = D
[tex]D=\frac{m}{V}=\frac{4,000 kg}{3.2 m^3}=1,250 kg/m^3[/tex]
Specific volume is the reciprocal of the density :
[tex]V_{specific}=\frac{1}{Density}[/tex]
Specific volume of the fluid = [tex]S_v[/tex]
[tex]S_v=\frac{1}{D}=\frac{1}{1,250 kg/m^3}=0.0008 m^3/kg[/tex]
2)
Density of the fluid in English Engineering units = D [tex](lb/ft^3)[/tex]
1 kg = 2.20462 lb
1 m = 3.280 ft
[tex]D=\frac[1,250\times 2.20462 lb}{(3.280 ft)^3=78.95 lb/ft^3[/tex]
Specific volume of the fluid :
[tex]=\frac{1}{78.95 lb/ft^3}=0.0127 ft^3/lb[/tex]
3)
Density of the fluid in British Gravitational System units = D [tex](slug/ft^3)[/tex]
1 kg = 0.06852 slug
1 m = 3.280 ft
[tex]D=\frac[1,250\times 0.0685218 slug}{(3.280 ft)^3=2.43 slug/ft^3[/tex]
Specific volume of the fluid :
[tex]=\frac{1}{2.43 slug/ft^3}=0.412 ft^3/slug[/tex]
