L Law No. 4 of 2009 on Mineral and Coal Mining, mandates that metal mineralsmust be increased in value added by domestic processing and refining.Therefore the increase in the weight gain of the concentrate and the increase inthe main mineral content, namely Sn, must be done so that the regulation iscarried out properly. This study uses X-Ray Diffraction (XRD) data and themethod used is the method of gravity concentration tool, the tool used is theWilfley table type shaking table with water media. As observed, the effect ofvariations in sample size and slope variations on the acquisition of concentrate(Sn), recovery, and knowing the optimal conditions for obtaining concentrate.The results of the study on sample size # 50 with a slope of 1o obtainedconcentrations of 172.66 grams, 3Ëš obtained concentrations of 248 grams and 6Ëšacquisition of concentrations of 306 grams. For sample size # 100 with avariation of slope of 1Ëš, the concentration of 835.34 grams, the concentration of3Ëš is 685.54 grams, 6Ëš the concentration is 454.16 grams. For sample size # 80variation of slope 1Ëš the acquisition of concentrate is 750 grams, 2Ëš theconcentration is 263.37gram, 3Ëš is 250.41 gram, 4Ëš is 265.1 gram, 5Ëš is 325.94gram, and 6Ëš is 363.4 gram. In all the three size variations, it can be known thatmaterial size and the degree of slope affect the value of the concentrate. So thatthe optimal conditions for this research are using size #100 variations with aslope of 1Ëš, concentrated results and feeds are tested with X-Ray Fluresence(XRF) with a Sn in feed of 22.5% and the Sn concentrate rises to 25.1%.