# Fluid Mechanics

Fluid Mechanics(Fluid) Bachelor of Engineering(BE) videos According to syllabus of Institute of Engineering(IoE), Tribhuwan University (TU)

Beginner 5 (14 Reviews ) 160 Students enrolled
Last updated Thu, 19-May-2022 Nepali
What will I learn?
• After Completion of this Course, Students will get complete knowledge of Fluid Mechanics, based on syllabus of IoE and will be able to secure good score in IoE exam.

Curriculum for this course
241 Lessons 33h 5m
1. Mark Distribution
1 Lessons 6m
• Syllabus and Marks distribution 6 Minutes Free
• 1. Fluid and its types 7 Minutes Free
• 2. Properties of fluid 10 Minutes Free
• 3. Surface Tension 10 Minutes
• 4. Vapour Pressure 4 Minutes
• 5. Viscosity 6 Minutes
• 6. Numerical 1 (Viscosity) 3 Minutes
• 7. Temperature Dependence on Viscosity 4 Minutes
• 8. Numerical 2 6 Minutes
• 9. Numerical 3 6 Minutes
• 10. Determination of viscosity (Falling ball method) 6 Minutes
• 11. Rotating cylinder viscometer 6 Minutes
• 12. Numerical 4 3 Minutes
• 13. Numerical 5 4 Minutes
• 14. Classification of fluid 3 Minutes
• 1. Atmospheric pressure, gauge pressure and absolute pressure 6 Minutes
• 2. Pascal's law 13 Minutes
• 3. Hydrostatic law 7 Minutes
• 4. Measurement of pressure 3 Minutes
• 5. U-tube manometer 6 Minutes
• 6. Numerical 1 (U-tube manometer) 11 Minutes
• 7. Numerical 2 (U-tube manometer) 7 Minutes
• 8. Numerical 3 (U-tube manometer) 7 Minutes
• 9. Single column manometer 10 Minutes
• 10 Numerical 4 (single column manometer) 4 Minutes
• 11. Differential manometers 11 Minutes
• 12. Numerical 5 (Differential manometer) 6 Minutes
• 13. Numerical 6 (2071 Chaitra) 7 Minutes
• 14. Numerical 5 (2073 Shrawan) 7 Minutes
• 1. Introduction to hydrostatics 5 Minutes
• 2. Total pressure on a horizontal submerged plane surface 3 Minutes
• 3. Total pressure on a vertical submerged plane surface 11 Minutes
• 4. Total pressure on an inclined plane submerged surface 12 Minutes
• 5. Total pressure on a curved submerged plane surface 7 Minutes
• 6. Numerical on vertically submerged plane surface 7 Minutes
• 7. Numerical 2 on vertically submerged plane 11 Minutes
• 8. Numerical on inclined submerged plane surface 8 Minutes
• 9. Numerical on curved submegred plane surface 10 Minutes
• 10. Numerical 2 on curved submerged plane surface 16 Minutes
• 11. Numerical 3 on curved submerged plane surface 11 Minutes
• 12. Buoyancy and center of buoyancy 4 Minutes
• 13. Numerical 1 on Buoyancy and Center of Buoyancy 6 Minutes
• 14. Numerical 2 on Buoyancy and Center of buoyancy 10 Minutes
• 15. Metacenter and metacentric height 4 Minutes
• 16. Determination of metacentric height 14 Minutes
• 17. Numerical 1 on Metacentric height 6 Minutes
• 18. Numerical 2 on metacentric height 10 Minutes
• 19. Stability conditions of floating and submerged bodies 8 Minutes
• 20. Liquids in relative equilibrium 9 Minutes
• 21. Numerical 1 on liquid subjected to constant horizontal acceleration 12 Minutes
• 22. Numerical 2 on liquid subjected to constant horizontal acceleration 5 Minutes
• 23. Liquid subjected to constant vertical acceleration 9 Minutes
• 24. Numerical on liquid subjected to constant vertical acceleration 9 Minutes
• 25. Liquid container subjected to constant acceleration along an inclined planne 8 Minutes
• 26. Numerical related to liquid container subjected to constant acceleration along inclined plane 7 Minutes
• 27. Liquid container subjected to constant rotation 11 Minutes
• 28. Numerical Problem 1 on liquid container subjected to constant rotation 5 Minutes
• 29. Numerical problem 2 on liquid container subjected to constant rotation 4 Minutes
• 30.Numerical Problem 3 on liquid container subjected to constant rotation 9 Minutes
• 1. Introduction 4 Minutes
• 2. Classification of Fluid flow 13 Minutes
• 3. Stream function and Velocity potential function 4 Minutes
• 4. Numerical (stream function and potential function) 5 Minutes
• 5. Streamline, streakline, pathline streamtube and drawing their their procedures 6 Minutes
• 6. Relation between stream function and potential function 3 Minutes
• 7. Numerical (relation between stream function and potential function) 8 Minutes
• 8. Numerical (Plotting of streamlines) 8 Minutes
• 9. Conservation principle and continuity equation (cartesian co-ordinate) 13 Minutes
• 10. Conservation principle and continuity equation (cylindrical polar co-ordinate) 10 Minutes
• 11. Question (Continuity equation) 6 Minutes
• 12. Numerical 4 (Continuity equation) 7 Minutes
• 1. Introduction 8 Minutes
• 2. Reynold's, Euler's and Navier-Stoke's equation of motion 4 Minutes
• 3. Development of Euler's equation of motion 9 Minutes
• 4. Bernoulli's equation and its physical meaning 7 Minutes
• 5. Numerical 1 6 Minutes
• 6. Numerical 2 7 Minutes
• 7. Numerical 3 7 Minutes
• 8. Numerical 4 10 Minutes
• 1. Venturimeter 10 Minutes
• 2. Numerical 1 (Venturimeter) 9 Minutes
• 3. Numerical 2 (Venturimeter) 10 Minutes
• 4. Orificemeter 9 Minutes
• 5. Numerical (orificemeter) 5 Minutes
• 6. Pitot tube 5 Minutes
• 7. Nozzle meter 2 Minutes
• 8. Orifice and mouthpiece 3 Minutes
• 9. Classification of orifice 8 Minutes
• 10. Flow through orifice 6 Minutes
• 11. Different hydraulic coefficients 6 Minutes
• 12. Determination of Hydraulic coefficients 8 Minutes
• 13. Numerical 1 (Flow through orifice and determination of hydraulic coefficients) 7 Minutes
• 14. Numerical 2 6 Minutes
• 15. Discharge through large orifice (rectangular) 8 Minutes
• 16. Numerical (Discharge through large rectangular orifice) 6 Minutes
• 17. Discharge through fully submerged orifice 5 Minutes
• 18. Numerical (Discharge through fully submerged orifice) 2 Minutes
• 19. Discharge through partially submerged orifice 2 Minutes
• 20. Numerical ( Discharge through partially submerged orifice) 4 Minutes
• 21. Notches and weir 7 Minutes
• 22. Classification of notches and weir 9 Minutes
• 23. Discharge over a rectangular notch or weir 5 Minutes
• 24. Numerical (Discharge over rectangular weir) 4 Minutes
• 25. Discharge over a triangular notch 7 Minutes
• 26. Numerical 1 (Numerical on traingular notch) 2 Minutes
• 27. Numerical 2 (Discharge over triangular weir) 6 Minutes
• 28. Discharge over trapezoidal notch 4 Minutes
• 29. Numerical (Discharge through trapezoidal noth) 6 Minutes
• 30. Velocity of approach and related numerical 9 Minutes
• 31. Cipolletti weir or notch 7 Minutes
• 32. Numerical (Cipolletti weir) 5 Minutes
• 33. Discharge over a broad crested weir, narrow crested weir and ogee crested weir 9 Minutes
• 34. Numerical (broad-crested weir) 4 Minutes
• 35. Time of emptying a reservoir with uniform cross-section 10 Minutes
• 36. Numerical (Time required to emty a tank of uniform cross-section) 5 Minutes
• 37. Time for emptying or filling the hemispherical tank 11 Minutes
• 38. Numerical (time to empty hemispherical tank) 6 Minutes
• 39. Numerical (combination of cylindrical and hemispherical tank) 6 Minutes
• 40. Time for emptying a conical tank 12 Minutes
• 41. Numerical (Conical tank) 5 Minutes
• 42. Time of emptying cylindrical tank with inflow 4 Minutes
• 1. Momentum principle and its application 10 Minutes
• 2. Numerical 1 (Application of momentum principle) 18 Minutes
• 3. Numerical 2 (right angled reducing bend) 14 Minutes
• 4. Numerical 3( pipe bend with more than one exits) 14 Minutes
• 5. Force exerted by jet on stationary vertical plate 8 Minutes
• 6. Numerical 4 (stationary vertical plate) 5 Minutes
• 7. Force exerted by jet on a stationary inclined plate 7 Minutes
• 8. Numerical 5 (stationary inclined plate) 4 Minutes
• 9. Force exerted by jet on a stationary curved plate (jet striking at the center of the vane) 6 Minutes
• 10. Force exerted by a jet on a stationary curved plated (jet striking tangentially to the plate at one tip) 6 Minutes
• 11. Numerical 6 (stationary curved plate) 6 Minutes
• 12. Force exerted by the jet on a moving flat vertical plate 5 Minutes
• 13. Numerical 7 (moving flat vertical plate) 6 Minutes
• 14. Force exerted by jet on a moving inclined plate 10 Minutes
• 15. Numerical 8 (moving inclined plate) 5 Minutes
• 16. Force exerted by the jet on a series of flat vanes 9 Minutes
• 17. Force exerted by the jet on a moving curved plate 6 Minutes
• 18. Numerical 9 (moving curved vane) 7 Minutes
• 19. Concept of angular momentum in fluid 4 Minutes
• 20. Numerical (Sprinkler, 2071 Chaitra) 19 Minutes
• 1. Boundary layer theory 5 Minutes
• 2. Zones in Boundary Layer 5 Minutes
• 3. Displacement Thickness 16 Minutes
• 4. Momentum Thickness and Energy Thickness 15 Minutes
• 5. Numerical (2070 Ashad) 12 Minutes
• 6. Application of the concept (Hydraulically rough and smooth boundaries) 6 Minutes
• 7. Boundary Layer Seperation 7 Minutes
• 8. Numerical (Distinction of laminar and turbulent boundary region)(2069 Ashad) 7 Minutes
• 9. Question (2071 Chaitra) 7 Minutes
• 1. Introduction to Drag and Lift Forces 11 Minutes
• 2. Drag Force on a Sphere 8 Minutes
• 3. Numerical 1 (2069 Chaitra) (drag on a sphere) 10 Minutes
• 4. Numerical 2 (075 Chaitra) (drag on a sphere) 7 Minutes
• 5. Drag force on a cylinder (along with relavant questions dicussed) 13 Minutes
• 6. Drag on a flat plate 4 Minutes
• 7. Numerical 3 (drag on a flat plate) 6 Minutes
• 8. Numerical 4 (kite) 7 Minutes
• 9. Numerical 5 (070 Ashad) (kite) 5 Minutes
• 10. Concept of Aerofoils (along with questions discussed) 7 Minutes
• 11. Numerical 6 (airfoil) 6 Minutes
• 12. Numerical 6 (069 Chaitra) (aerofoil) 5 Minutes
• 13. Numerical 7 (073 Shrawan) (aerofoil) 6 Minutes
• 14. Numerical 8 (071 Shrawan) 6 Minutes
• 15. Numerical 9(070 Ashad) 4 Minutes
• 1. Dimensional Analysis 10 Minutes
• 2. Rayleigh's Method 6 Minutes
• 3. Question (Rayleigh's method) (2074 Chaitra) 15 Minutes
• 4. Buckingham's-pi theorem 10 Minutes
• 5. Question (Buckingham's-pi theorem) (2068 Shrawan) 11 Minutes
• 6. Question (Buckingham's-pi theorem) (2071 Chaitra) 10 Minutes
• 7. Question (Buckingham's-pi theorem) (2070 Ashad) 11 Minutes
• 8. Similitude 11 Minutes
• 9. Types of forces in moving fluid 3 Minutes
• 10. Dimensionless Numbers 9 Minutes
• 11. Model laws or Similarity laws (Reynold's model law) 5 Minutes
• 12. Numerical on Reynold's Model Law (2072 Chaitra) 7 Minutes
• 13. Froude Model Law 7 Minutes
• 14. Numerical on Froude model law (2072 kartik) 6 Minutes
• 15. Numerical on Froude Model Law 2 (2076 Ashwin) 4 Minutes
• 16. Euler, Weber and Mach model law 5 Minutes
• 17. Classification of models 3 Minutes
• 1. 2076-Ashwin
• 1. Q. No. 1.a 13 Minutes
• 2. Q. No. 1.b 3 Minutes
• 3. Q. No. 1.c 6 Minutes
• 4. Q. No. 2.a 12 Minutes
• 5. Q. No. 2.b 14 Minutes
• 6. Q. No. 3.a 5 Minutes
• 7. Q. No. 3.b 7 Minutes
• 8. Q. No. 3.c 8 Minutes
• 9. Q. No. 4.a 9 Minutes
• 10. Q. No. 4.b 15 Minutes
• 11. Q. No. 5.a 4 Minutes
• 12. Q. No. 5.b 5 Minutes
2. 2075-Ashwin
• 1. Q. No. 1.a 6 Minutes
• 2. Q. No. 1.b 9 Minutes
• 3. Q. No. 2.a 7 Minutes
• 4. Q. No. 2.b 16 Minutes
• 5. Q. No. 3.a 6 Minutes
• 6. Q. No. 3.b 5 Minutes
• 7. Q. No. 4.a 12 Minutes
• 8. Q. No. 4.b 6 Minutes
• 9. Q. No. 4.c 7 Minutes
• 10. Q. No. 5.a 11 Minutes
• 11. Q. No. 5.b 4 Minutes
3. 2075-Chaitra
• 1. Q. No. 1.a 11 Minutes
• 2. Q. No. 1.b 5 Minutes
• 3. Q. No. 1.c 8 Minutes
• 4. Q. No. 2.a 11 Minutes
• 5. Q. No. 2.b 6 Minutes
• 6. Q. No. 3.a 17 Minutes
• 7. Q. No. 3.b 14 Minutes
• 8. Q. No. 4.a 9 Minutes
• 9. Q. No. 4.b 13 Minutes
• 10. Q. No. 5.a 7 Minutes
• 11. Q. No. 5.b 8 Minutes
• 12. Q. No. 5.c 4 Minutes
4. 2074-Chaitra
• 1. Q. No. 1.a 11 Minutes
• 2. Q. No. 1.b 6 Minutes
• 3. Q. no. 2.a 10 Minutes
• 4. Q. No. 2.b 10 Minutes
• 5. Q. No. 3.a 8 Minutes
• 6. Q. No. 3.b 12 Minutes
• 7. Q. No. 4.a 7 Minutes
• 8. Q. No. 4.b 10 Minutes
• 9. Q. No. 5.a 6 Minutes
• 10. Q. No. 5.b 10 Minutes
5. 2076-Chaitra
• 1. Q. No. 1.a 17 Minutes
• 2. Q. No. 1. b 11 Minutes
• 3. Q. No. 1.c 8 Minutes
• 4. Q. No. 2.a 15 Minutes
• 5. Q. No. 2.b 9 Minutes
• 6. Q. No. 3.a 7 Minutes
• 7 Q. No. 3.b 12 Minutes
• 8. Q. No. 4.a 8 Minutes
• 9. Q. No. 4.b 10 Minutes
• 10. Q. No. 4.c 6 Minutes
• 11. Q. No. 5.a 6 Minutes
• 12. Q. No. 5.b 6 Minutes
Requirements
• Students are required to have knowledge of Fluid Mechanics, based on syllabus of IoE
Description

The videos herein are strictly based on syllabus of Institute of Engineering Tribhuwan University, Nepal promoting "e-Learning in Nepal" and are made with intention to provide guidance to the "Bachelor in Engineering(BE) appearing students", for securing good results. The course tries to cover all the basics of Fluid Mechanics along with the solution of numericals which are frequently asked in the exam. We strongly believe that, viewers will be benefited from these videos and the thrist of curiosity of viewers will be quenched! Feedbacks and suggestion to improve are always welcome and highly appreciated!

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Includes:
• 33+ Hours On demand videos
• 241 Lessons
• 30 Days Subscription
• Access On Mobile And Web

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