3. The total head lost from A to E in the figure shown is 15 meters. Find the discharge in each pipe. Assume f = 0.02 for all pipes.
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- UNIITESI ADNAN AYDIN ADNAN MENDERES ÜNİVERSİTESİ ONLINE SINAV PORTALI 15603018 181803016 1. Please answer the question: 381603018 Reynolds number equation is 181803013 O A) V*D/dynamic viscosity O B) Q*D/dynamic viscosity 181808018 C) None of these answers D) V*D/kinematic viscosity 181803018 O E) V*D*kinematic viscosity 181603016 03018 Bu soruyu cevaplamadan geçmek için bu seçeneği işaretleyin 03018 81803018 3018 Sorunun Cevabi Kaydet ve Sonraki Soruya Geç 3018 03018 18030 3016 23018 181803018 03018 1803018 16180301 181803018 181800 181803018 181803018 181803018 131803918 1818 3018 188 181803018 181803018 181803018 1803018 181803010- 181803018 16160308 181803013 181803018 03018 803018 181803018 181803018 181808decribe a real life control system example and explain how to relate it for single linear flexible jointRe is a non-dimensional number to show the onset of turbulence Re pVD VD Res 2000 2000 Re $3000 Rez 3000 D-diameter of the conduit (or, characteristic length) v-kinematic viscosity, -absolute viscosity The above definition of Reynolds number is given for pipe flow. If it is for airflow (temp = 20°C, v = 1.5x105 m²/s) with a velocity of 0.1 m/s over a thin plate of semi-infinite extent, the transition region length over the thin plate will be None of the answers are correct. laminar flow transition flow (unpredictable) turbulent flow Transition region length = 435 m Transition region length = 450 m Transition region length = 15 m
- 800 Deter mine the magni tnde aund direction 200 of the resultant 30 300 of the four forces 40 shown in the figure: 420NCan you help me thank youstengthflnalen strength of materials exam s/d/e/1FAlpQLSe0S4jiBdFukwD10EDn6YcB3b9pFVy9DyHocjzQq4hz4Q1SGw/formResponse ps E News Translate Total thermal expansion is: * A 120mmx150mm L= 2m E= 25000MPa AT 100°C a = 3x106 1/m 300mmx400mm L= 4m C 2.0 mm 2.5 mm O 2.2 mm 1.8 mm During the tension test, the wooden specimen is subjected to an axial
- dont use row g h to find the hight huse bernouliTRANSCRIBE IN DIGITAL FORMATE 5 A Tutorial 01.pdf A Topic 1.pdf * CE2211 2020_2_CE: CE 221 E conjugate beam assignmen CE2711 Fluid Mechanic X A Douglas J.F., Gasoriek J.M., -> O file:///C:/Users/Thavisha/Documents/SLIIT/Y2S1/zzz/2017/CE2711 Fluid%20Mechanics.pdf ... of 4 p E Fit to page CD Page view A Read aloud 2. Add notes Ш Freshwater and seawater flowing in parallel horizontal pipelines are connected to each other by a double U-tube manometer, as shown in Figure 1.3. Determine the pressure difference between the two pipelines. Take the density of mercury and sea-water at that location to be 13600 kg/m³ and 1035 kg/m', respectively. Can the air column be ignored in the analysis? (20 marks) Air Fresh- 40 cm water 70 cm Sea- water 60 cm 10 cm Mercury Figure 1.3 Double U-tube manometer arrangement Question 02 (50 marks) Briefly explain the reason for the origination of hydrostatic forces on submerged surfaces. (05 marks) I.
- Hello may I ask if what should I put on the remarks and please kindly check my answers also if they are correct. ThanksMetrology and Measurement Systems Discuss briefly the possible causes of out-of- roundness error fora rotary shaft workpiece witha diameter of 125mmandlength of300 mm. Suggest thepossibleways on how to avoid or minimize the causes of errors you have identified.Question #02 Please provide justified answer asap to get a upvote