# Manning Example Q = manning_flow(n=0.013, slope=0.001, radius=0.75, area=1.5) print(f"Manning Q = {Q:.3f} m³/s")
# Rational Method Example Qp = rational_method(C=0.35, intensity=50, area=2.5) print(f"Rational peak runoff = {Qp:.3f} m³/s") You can create a Markdown + Python cell that walks through each problem, like: water resources engineering 2nd edition solution manual pdf
## Problem 5.12 (Manning’s Equation) **Given:** n=0.015, slope=0.0005, hydraulic radius=1.2 m, area=3.5 m² **Find:** Discharge Q Manning’s eq: Q = (1/n) A R^(2/3) S^(1/2) Plug values → Q = ... # Manning Example Q = manning_flow(n=0