Objective Types - Friction
| Site: | MSubbu Academy |
| Course: | Fluid Mechanics |
| Book: | Objective Types - Friction |
| Printed by: | Guest user |
| Date: | Thursday, 1 January 2026, 11:01 AM |
Table of contents
- 1. 2013-13: f vs. Re for Laminar Flow
- 2. 1996-3-3: Laminar / Turbulent Flows
- 3. 2017-35: Shear Stress from Pressure Drop Data
- 4. 2001-1-8: Flow through Capillary
- 5. 2000-1-9: Flow Variables at Constant Pressure Gradient
- 6. 2004-11: Equivalent Diameter of Rectangular Duct
- 7. 1988-2-vi: Hydraulic Radius of Square Duct
- 8. 1997-1-9: Hydraulic Radius of Annulus
- 9. 2012-10: Pressure Drop for Laminar Flow
- 10. 2000-1-11: Pressure Drop of Shear-thinning Fluid
- 11. 2017-36: Friction Factor Data
- 12. XE-2012-B-6: Shear Stress at Pipe Center
- 13. 2024-23: Shear Stress vs Radius - Laminar Flow
- 14. XE-2015-B-13: Flow through Pipe
- 15. 2014-12: Velocity vs. Viscosity for Laminar Flow
- 16. 2010-22: Shear Stress Profile for Laminar
- 17. 0300-1: Velocity Profile of Bingham Plastic
- 18. XE-2012-B-14: Velocity Profile due to Plate Movement and Pressure Gradient
- 19. 2016-6: Pressure Drop from Velocity Data
- 20. 2002-1-7: Flow Rate vs. Pressure Drop
- 21. 2006-36: Pressure Drop due to Leak
- 22. 2011-36: Flow Distribution in Branches
- 23. 2013-32: Pressure at a Section of Nozzle
- 24. 2015-10: Comparison of Laminar and Turbulent Flows
- 25. ME-2013-7: Shear Stress vs. Pressure Drop
- 26. 2008-10: Flow through Valves and Fittings
- 27. 2020-43: Power for Pumping
- 28. 1997-1-7: Volumetric Flow vs. Radius
- 29. 1989-2-i-a: Pressure Drop vs. Velocity
- 30. 1994-1-k: Pressure Drop at Laminar Flow
- 31. 1988-2-vii: Comparison of Pressure Drops
- 32. 1998-2-10: Pressure Drop vs. Flow Rate