5.9. Write down the transformation for flow past the Rankine body resulting from a uniform flow U, a source at (-a,0) and a sink at (a,0) and, by differentiation, obtain an expression for the velocity at any point and for the locations of the stagnation points
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- I need the answer as soon as possibleNeed help with number one. I have to Derive the expression for the force in the hydraulic cylinder AB as a function of theta.I solved it but I need help in two parts.For first part, How to show thev formula is a solution of ODE? Second, for the third part, how to show it is bounded because I can not integratw matrix?
- Type the complete boolean logic equation from the logic diagram presented. (Note: For XOR and XNOR symbols, you may just type the word) A C DSet-up the double integral, no need to evaluate. Please sketch the graph and show complete solutions.A Venturi tube, as shown in the figure, is used to measure the flow of kerosene runoff (d = 0.85). Determine: Being known the values of the pressure at point 1 and the height in the total load tube h1, calculate the net flow (Q) and the mass flow (m); Whereas the flow is made invíscido (considering absence of loss of energy ) determine the static pressure at point 2; The height of mercury (h2) in the manometer connected between points 1 and 2. Data: dHg = 13.6; p1 = 15 kPa; D1 = 0.250 m; D2 = 0.200 m; h1 = 2.8 m.
- Number 3 please2.5.2 (a) (b) From the results of Exercise 2.5.1, calculate the partial derivatives of f. 6, and with respect to r, e, and . With V given by 1a rsine ap är (greatest space rate of change), use the results of part (a) to calculate V-Vy. This is an alternate derivation of the Laplacian. Note. The derivatives of the left-hand V operate on the unit vectors of the right-hand V before the unit vectors are dotted together.) A vertical plate is submerged in water and has the shown shape. The plate is a semicircle with a diameter of 14 meters and the top is at a depth of 2 meters. Express the force as an integral and then evaluate.
- Find the separable solution of Laplace's equation (r, 0) = f(r)g(0), where r and are polar coordinates, describing a planar two-dimensional potential flow past a wedge (see the figure below). 00 Show that in this solution the flow speed * = Apa-1 2π where A is an arbitrary constant, a = and the angle < 0o < 27 is defined in the 1 00 figure above.AsapDo correctly and asap