Answer:
The force required to hold the contraction in place is 665.91 N ↑
Explanation:
Given;
specific gravity of oil, γ = 0.75
Volumetric flow rate, V 3.2 Ft³/s = 0.0906 m³/s
[tex]\gamma =\frac{\rho_o}{\rho_w}[/tex]
where;
[tex]\rho_o[/tex] is the density of oil
[tex]\rho_w[/tex] is the density of water = 1000 kg/m³
∴density of oil ([tex]\rho_o[/tex]) = γ × density of water([tex]\rho_w[/tex])
= 0.75 × 1000 kg/m³
= 750kg/m³
Buoyant Force = ρVg
= 750 × 0.0906 × 9.8
= 665.91 N ↑
This force acts upward or opposite gravitational force.
Therefore, the force required to hold the contraction in place is 665.91 N ↑
