Question

Please show all work

Given the velocity field =101 +(x2 + y2); - 2xy K [m/s] a) b) c) Is the flow steady or unsteady? Is this motion kinematically possible for an incompressible fluid? Do you think that velocity field can represent a potential flow at specific positions of (x, y)? What is the acceleration of a particle at position (x, y, z) = (3, 1, 0) m? d)

Answer 1

variation Given velocity field, J = 10 i + (n²+ y 2) ĵ - (2 xy) F (m/s) a) The flow is being steady or unsteady depends on of velocity with respect to time. Here, time is not present in the equation, hence flow is steady. 6) To satisfy the incompressibility the condition is, av t =0 out on Sy az → Here u=10 JZ V=x²+y2 watery ? 2a + 2x + 2 2 Cro) + 2 (x2 + y 2) + 2 (-2ay) sy +2y=0 O 2y to Hence, flow is incompressible and kinetatically possible Potential flow; Potential flow is characterized by irrotational velocity field. i e, vorticity=0 E- (A (2 - 0) F = 2x to Hence, vorticity to and flow is Brotational and not a potential flow. d) Acceleration at (3,1,om? ă = axit ay h + azk von wohl = 0 2 - oi + (60+18+2) ; ay= uovat van + way +(-20-54-6) ay 20x+ 2x²y + 2y3 ã oi +80) - 80 ŕ m/s2 113.13 m/s² -20y - 2x² – 2xy 2 4x = haut Az 66.24+ raw + wow & las

If this is helpful, please UPVOTE. Thank you !!