The Green–Ampt model (GAM) is a widely used water infiltration model. However, it lacks a reliable theoretical basis to independently and simultaneously determine the GAM parameters of effective hydraulic conductivity (K_e) and the average matric pressure head at the wetting front (H_f) from those commonly measured soil hydraulic properties. In this paper, we derived an approximate analytical solution similar to GAM for one‐dimensional vertical infiltration into soils with initially uniform soil moisture distribution, with K_e and H_f being simultaneously related to the Brooks–Corey (BC) model parameters. The new relationships are not restricted to the piston‐type moisture profile or delta‐type water diffusivity like in the traditional GAM (TGAM). Infiltration experiments on three soils of various textures were conducted to validate the new approximate analytical solution and the corresponding GAM parameters. It was demonstrated that the predicted cumulative infiltrations and soil moisture profiles by the GAM with K_e and H_f calculated by the new expressions (new GAM, NGAM) generally agreed well with the numerical solutions, especially for initially dry soils. In contrast, cumulative infiltrations were considerably over‐predicted by the TGAM using K_e = K_s and H_f calculated by Neuman's equation. Our theoretical analysis further indicated that even without air entrapped during infiltration, the effective hydraulic conductivity can still be less than the saturated hydraulic conductivity K_s. The relative effective hydraulic conductivity ζ (K_e/K_s) and the relative average matric pressure head at the wetting front η (‐H_f/h_d where h_d is absolute value of the air‐entry suction) show a dependency only on soil pore structure index (n) and effective initial soil‐water saturation (S_i). The values of ζ increased but η decreased with S_i and n. The theoretical ranges of ζ and η were from 0.5 and 2 for dry heavy‐texture soils to 1 and 0 for saturated soils, respectively, which are consistent with the experimental values reported in literatures.