Solutions for WATER RESOURCES ENGINEERING (CL)
Browse All Chapters of This Textbook
Chapter 2 - Water Resources SustainabilityChapter 3 - Hydraulic Processes: Flow And Hydrostatic ForcesChapter 4 - Hydraulic Processes: Pressurized Pipe FlowChapter 5 - Hydraulic Processes: Open‐channel FlowChapter 11 - Water DistributionChapter 14 - Design Of Spillways And Energy Dissipation For Flood Control Storage And Conveyance SystemsChapter 19 - : Flood Control
Book Details
Modern water conveyance and storage techniques are the product of thousands of years of human innovation; today we rely on that same innovation to devise solutions to problems surrounding the rational use and conservation of water resources, with the same overarching goal: to supply humankind with adequate, clean, freshwater. Water Resources Engineering presents an in-depth introduction to hydrological and hydraulic processes, with rigorous coverage of both core principles and practical applications. The discussion focuses on the engineering aspects of water supply and water excess management, relating water use and the hydrological cycle to fundamental concepts of fluid mechanics, energy, and other physical concepts, while emphasizing the use of up-to-date analytical tools and methods. Now in its Third Edition, this straightforward text includes new links to additional resources that help students develop a deeper, more intuitive grasp of the material, while the depth and breadth of coverage retains a level of rigor suitable for use as a reference among practicing engineers.
Sample Solutions for this Textbook
We offer sample solutions for WATER RESOURCES ENGINEERING (CL) homework problems. See examples below:
The UN Millennium Development Goals (MDGs) 2015 Report discusses the achievements made since the...Given: Length of the rectangular plate = 4 m Width of the rectangular plate = 2 m Formula used:...Given: D=12 in. Formula used: hLf=fLV22gDwhere,hLf is head loss f is friction factor V is velocity L...Given: The diameter of the culvert is do=36 in and the depth of the flow is y=20 in. Concept Used:...Given: Diameter=1 mLength of pipe=300 mn=0.013C=100Q=1 m3/s and 2 m3/s Formula used:...
More Editions of This Book
Corresponding editions of this textbook are also available below:
Water Resources Engineering
2nd Edition
ISBN: 9780470460641
WATER RESOURCES ENGINEERING >CUSTOM<
2nd Edition
ISBN: 9781119147879
EBK WATER RESOURCES ENGINEERING
2nd Edition
ISBN: 9780470574164
Water Resources Engineering
1st Edition
ISBN: 9780471297833
WATER RESOURCES ENGINEERING
3rd Edition
ISBN: 9781119490579
EBK WATER RESOURCES ENGINEERING
3rd Edition
ISBN: 9781119493167
Related Civil Engineering Textbooks with Solutions
Still sussing out bartleby
Check out a sample textbook solution.