Name: ______________________ S.S. No. ________________ Grade: _______

1. Compare the celerity and attenuation properties of kinematic, diffusion, dynamic, and inertial (gravity) waves.

2. What do overland flow and slow-rising flood waves have in common that they lend themselves to description by kinematic and diffusion wave models?

3. What is the main message of Cunge's paper on the Muskingum method?

4. What is the Courant number? What definition of Courant number would you use in flood routing computations?

5. What is grid independence in the context of numerical modeling?

6. What is the basis of the controversy regarding the kinematic wave model?

7. Under what four physical conditions is the kinematic shock more likely to develop?

8. Why is a kinematic shock not likely to happen in a river like the Upper Paraguay?

9. Why is the Li method of solving the kinematic wave equation likely to be more diffusive than the Schaake (HEC-HMS) method?

10. How do the Hayami, Dooge, and Ponce hydraulic diffusivities differ from each other?