The buoyant force formula is:
[tex] B = \rho Vg [/tex]
where [tex] B [/tex] is Buoyant force, [tex] \rho [/tex] is density, [tex] V [/tex] is displaced body volume and [tex] g [/tex] is [tex] 9.806 ms^{-2} [/tex] (standard gravity).
The standard mass density of the sample, [tex] \rho _{1} [/tex] = [tex] 8 g/ml [/tex]
If the dansity of the sample, [tex] \rho _{2} [/tex] [tex] < 8 g/ml [/tex]
The buoyancy correction is determined by the ratio:
[tex] \frac{B_{1}}{B_{2}} = \frac{\rho_{1} Vg}{\rho_{2} Vg} [/tex]
[tex] \frac{B_{1}}{B_{2}} = \frac{\rho_{1}}{\rho_{2}} [/tex]
[tex] \frac{B_{1}}{B_{2}} = \frac{\rho_{1}}{\rho_{2}}>1 [/tex]
Hence, the the buoyancy correction is positive.
