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There are numerous occasions in which a fairly uniform
Chapter 4, Problem 113P(choose chapter or problem)
Problem 113P
There are numerous occasions in which a fairly uniform free-stream flow encounters a long circular cylinder aligned normal to the flow (Fig. P11–58). Examples include air flowing around a car antenna, wind blowing against a flag pole or telephone pole, wind hitting electrical wires, and ocean currents impinging on the submerged round beams to support oil platforms. In all these cases, the flow at the rear of the cylinder is separated and unsteady, and usually turbulent. However, the flow in the front half of the cylinder is much more steady and predictable. In fact, except for a very thin boundary layer near the cylinder surface, the flow field may be approximated by the following steady, two-dimensional velocity components in the xy-or rθ-plane:
FIGURE P11–58
Is this flow field rotational or irrotational? Explain.
Questions & Answers
QUESTION:
Problem 113P
There are numerous occasions in which a fairly uniform free-stream flow encounters a long circular cylinder aligned normal to the flow (Fig. P11–58). Examples include air flowing around a car antenna, wind blowing against a flag pole or telephone pole, wind hitting electrical wires, and ocean currents impinging on the submerged round beams to support oil platforms. In all these cases, the flow at the rear of the cylinder is separated and unsteady, and usually turbulent. However, the flow in the front half of the cylinder is much more steady and predictable. In fact, except for a very thin boundary layer near the cylinder surface, the flow field may be approximated by the following steady, two-dimensional velocity components in the xy-or rθ-plane:
FIGURE P11–58
Is this flow field rotational or irrotational? Explain.
ANSWER:
Solution 113P
There are numerous occasions in which a fairly uniform free-stream flow encounters a long circular cylinder aligned normal to the flow . Examples include air flowing around a car antenna, wind blowing against a flagpole or telephone pole, wind hitting electrical wires, and ocean currents impinging on the submerged round beams to support oil platforms.
In all these cases, the flow at the rear of the cylinder is separated and unsteady, and usually turbulent. However, the flow in the front half of the cylinder is much more steady and predictable.
In fact, except for a very thin boundary layer near the cylinder surface, the flow field may be approximated by the following steady, two-dimensional velocity components in the xy-or rθ-plane.
= ()
Is this flow field rotational or irrotational can be determined by finding the value of vorticity (.
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