20 mm W KN/m L(m) b(mm) Fig( 4) 40mm
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- 1. A sharp-edged orifice in a 30 deg plane has its vena contracta at Elev. 107m. If the water surface of the tank is at Elev. 15.25m and the top of the jet is at Elev. 14m, find the velocity and the coefficient of velocity.A tank has one of its side inclined inward at an angle of 30 degrees with horizontal. The free surface of the contained water is at Elev 15.25 m. The orifice located on the inclined side issues a jet, having its vena contracta at Elev 10.70 m. If the highest point in the trajectory of the jet is at Elev. 14.00m, find the actual velocity of the jet. Neglect air friction. a. 11.3 m/s b. 9.3 m/s c. 8.3 m/s d. 10.3 m/sI am unsure how to continue on this problem I found Ex but am having trouble isolating Ey. w = 3.5 kN/m P = 5.3 kN
- The reaction at point A is 8.0kN The reaction at point C is 12kN For item #3. What is the moment due to the reaction force at point A? 24.0 KN-m 36.0 KN-m 30.0 KN-m 40.0 KN-m 2. What is the Area at A1? 36.0 KN-m² 54.0 KN-m² 45.0 KN-m² 60.0 KN-m² 3. What is the Area at A2? 24.0 KN-m² 36.0 KN-m² 30.0 KN-m² 60.0 KN-m²A tank has one of its side inclined inward at an angle of 30° with horizontal. The free surface of the contained water is at Elev 15.25 m. The orifice located on the inclined side issues a jet, having it's vena contracta at Elev 10.70 m. If the highest point in the trajectory of the jet is at Elev 14.00 m, find the actual velocity of the jet air friction. Neglect air friction. Include fbd.Ball A is thrown downwards at a velocity of 2.5m/s from a height of (h1=60m) while ball B is thrownupwards from a height of (h2=1.2 m) the two balls met at a height of (h3=25m) what is the initialvelocity of ball B
- SHOW SOlution Ans. F= 733.16kN 1.844m from the bottom of the tank parallel to the gateAir at 20°C flows over a very large bank of 2 cm OD tubes that are kept at 100°C. The air flowis perpendicular to the long axis of the tube. The tubes are staggered with SL = 3.5 cm and ST = 2.8 cm. Find ℎ̅ on thefirst row of tubes and on the tubes deep in the array if the air velocity is 4.3 m/s before it enters the array.3. Attached photo for the problem Sharp edge orifice... (my answer was -2.43) 4. A 50 mm diameter siphon discharges water from a reservoir (Point 1 elev = 20m) into open air (Point 3 elev. 10m). The head loss from the reservoir (point 1) to the summit (point 2 elev = 22m) is 3 times the velocity head in the siphon and head loss from the summit to the discharge end is 4 times the velocity head in the siphon. Determine the velocity in the siphon in m/s? Photo for this problem is attached below.
- At 68 ˚F water has a dynamic viscosity of about 2.11 x 10 -5lb-s / ft2, solve the kinematic viscosity (in ft2/s) of water whose specific gravity is 0.998. Note ?????? =62.4 ??/??3 at normal condition.Question 2) cage system of Figure F 1 = 131 kN , F 2 = 179 kN , θ = 38 ° and L = 4 m as photo migrants. According to this; Question 2-A) Find the rod force that occurs in the JI Question 2-B) Find the rod force that occurs in the DE rod. Question 2-C) Find the rod force that occurs in the JE rod.A masonry dam 7 m high has a top width of 1.5m and bottom width of 5 m. Maximum water level in the dam is 1.0 m below the top of the dam. Determine the maximum intensity at the base when the dam is full. Take weight of water = 9.81 kN/m3 and weight of masonry = 21.6 kN/m3. a.117.5 kpA b.78.8 KPa c.119.5 kPa d.110.0 KPa