A circular hydrostatic bearing operates at a speed of 200 [rps], with a minimum film thickness of 50 [μm] and supports a load of 50 [kN]. The bearing's outside radius is three times larger than the recess radius. A lubricant is delivered through a capillary length of I = 80 [mm] and diameter d = 0.7 [mm]. The pump supply pressure is 3 [MPa] and the lubricant's viscosity is 8.5 [cP]. Calculate the bearing dimensions, friction coefficient, and power loss. Answer: R = 0.051 [m], R = 0.154 [m], μ = 0.0005, and H = 27.32 [W].