Q2/A circular jet of water at 200C impinges on the vane shown in figure. The incident jet has a velocity of 25 m/s and a diameter of 200 mm. The vane divides the incident jet equally, and the jet exits the vane as two jets, each making an angle of 200 with the incoming jet. (a) Determine the force on the vane when the vane is moving at a speed of 15 m/s in the same direction as that of the incident jet. (b) Determine the force on the vane when the vane is moving at a speed of 15 m/s in the opposite direction to that of the incident jet. Assume water at 200C. 200 mm 20 25 m/s - Incident jet Moving vane

QA circula jet of water at 200C impinges on the vane shown in figure. The incident et has & velociy of 25 mis and a diameter of 200 mm. The vane divides the incident jet equally, and the jt exis the vane as two jets, each mking an angle of 200 with the incoming jt. () Determine the force on the vane when the vane is moving a1 a speed of 15 s in the same direction as that of the incident jet. (b) Determine the force on the vane when the vane is moving at a speed of 15 s i the ‘opposite diection to that of he incident et Assume water at 200C. 200mm, 2Bms

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Q2/A circular jet of water at 200C impinges on the vane shown in figure. The incident jet has a velocity of 25 m/s and a diameter of 200 mm. The vane divides the incident jet equally, and the jet exits the vane as two jets, each making an angle of 200 with the incoming jet. (a) Determine the force on the vane when the vane is moving at a speed of 15 m/s in the same direction as that of the incident jet. (b) Determine the force on the vane when the vane is moving at a speed of 15 m/s in the opposite direction to that of the incident jet. Assume water at 200C. 200 mm, 25 m/s Incident jet Moving vane