This study was conducted to investigate the downward mobility of pesticides using soil colunms and to compare the experimental results with predicted values from Convective mobility test model. Five pesticides including ethoprophos, procymidone, iprobenfos, isoprothiolane, and butachlor were subjected to soil column leaching test for three types of cultivation soils. The concentrations of ethoprophos, iprobenfos, procymidone, isoprothiolane and butachlor leached from soil column of 30 cm depth ranged $0.74{sim}3.61mg/mL,;0.36{sim}1.67mg/L,;0.16{sim}0.84mg/L,;0.16{sim}0.67mg/L$ and lower than 0.15 mg/L, respectively. Elution volume to reach the peak of ethoprophos, iprobenfos, procymidone, isoprothiolane and butachlor in the leachate ranged $2{sim}4PV,;3{sim}10PV,;5{sim}13PV,;4{sim}14PV;and;19{sim}61PV$, respectively. Convection times predicted by Convective mobility test model at standard conditions were $9{sim}18$ days for ethoprophos, $17{sim}35$ days for iprobenfos, $24{sim}54$ days for isoprothiolane, $21{sim}65$ days for procymidone and $105{sim}279$ days for butachlor. Based on these convection times, ethoprophos was classified as mobile or most mobile, isoprothiolane and procymidone as moderately mobile or mobile and butachlor as slightly mobile. On the same conditions, convection times from the model were coincided with those from soil column test in most of the soil-pesticide combinations applied. Therefore, Convective mobility test model could be applied to predict convection times of pesticides.