4.2.8 The infiltration into a Yolo light clay as a function of time for a steady rainfall tate of 0.5 cm/h is as follows

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4.2.8 The infiltration into a Yolo light clay as a function of time for a steady rainfall tate of 0.5 cm/h is as follows

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4 2 8 The Infiltration Into A Yolo Light Clay As A Function Of Time For A Steady Rainfall Tate Of 0 5 Cm H Is As Follows 1
4 2 8 The Infiltration Into A Yolo Light Clay As A Function Of Time For A Steady Rainfall Tate Of 0 5 Cm H Is As Follows 1 (14.21 KiB) Viewed 35 times
4 2 8 The Infiltration Into A Yolo Light Clay As A Function Of Time For A Steady Rainfall Tate Of 0 5 Cm H Is As Follows 2
4 2 8 The Infiltration Into A Yolo Light Clay As A Function Of Time For A Steady Rainfall Tate Of 0 5 Cm H Is As Follows 2 (11.43 KiB) Viewed 35 times
4.2.8 The infiltration into a Yolo light clay as a function of time for a steady rainfall tate of 0.5 cm/h is as follows (Skaggs, 1982): Time (h) Cumulative infiltration (cm) Infiltration rate (em/h) 0 1.07 1.53 2.30 3.04 3.89 4.85 7.06 0 0.54 0.75 1.0 1.2 1.4 1.6 2.0 0.5 0.5 0.37 0.29 0.25 0.22 0.20 0.17

SUBSURFACE WATER . 125 Determine the parameters fo, fe, andk for Horton's equation. Assume that ponding occurs at t = 1.07 h. 40
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