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Given the following data from solids test. Sample volume was 103.691 mL in solids test. For this question, determine volatile solids (VS). Unit of solids in your answer is mg/L. Tare weight of evaporating dish (9) = 25.361782 Weight of evaporating dish plus residue after evaporating at 105C(q) = 25.361782 +0.0650 Weight of evaporating dish plus residue after ignition at 550C (g) = 25.361782 +0.0500 Weight of Whatman filter paper and tare (9) = 2.491908 Weight of Whatman filter paper, tare, plus residue after drying at 105C (9) = 2.491908 +0.0460 Weight of Whatman filter paper, tare, plus residue after ignition at 550 C (8) = 2.491908 +0.0110 Formula For evaporating dish WO = weight of evaporating dish W1 = weight of evaporating dish and total solids after 103 C drying W2 = weight of evaporating dish and fixed solids after 550 C ignition TS (mg/L) = (W1 - W0) g x (1000 mg/1g) x (1000 ml/mL water sample) VS (mg/L) = (W1-W2) gx (1000 mg/1g) x (1000 ml/mL water sample) FS (mg/L) = (W2-W0) gx (1000 mg/1g) x (1000 ml/mL water sample) For Gooch crucible Wo = weight of Gooch crucible + filter paper W1 = weight of Gooch crucible + filter paper + suspended solids after 103 C drying W2 = weight of Gooch crucible + filter paper + fixed suspended solids after 550 C ignition TSS (mg/L) = (W1-WO)gx (1000 mg/1g) x (1000 ml/mL water sample) VSS (mg/L) = (W1 - W2) gx (1000 mg/1g) x (1000 ml/mL water sample) FSS (mg/L) = (W2-W0) gx (1000 mg/1g) x (1000 ml/mL water sample ) Given the following data from solids test. Sample volume was 96.743 mL in solids test. For this question, determine dissolved solids (DS). Unit of solids in your answer is mg/L. Tare weight of evaporating dish (g) = 25.322311 Weight of evaporating dish plus residue after evaporating at 105C() = 25.322311 +0.0650 Weight of evaporating dish plus residue after ignition at 550 C (g) = 25.322311 +0.0500 Weight of Whatman filter paper and tare (g) = 2.496157 Weight of Whatman filter paper, tare, plus residue after drying at 105C (g) = 2.496157 +0.0460 Weight of Whatman filter paper, tare, plus residue after ignition at 550 C (g) = 2.496157 +0.0110 Formula For evaporating dish WO = weight of evaporating dish W1 = weight of evaporating dish and total solids after 103 C drying W2 = weight of evaporating dish and fixed solids after 550 C ignition TS (mg/L) = (W1-W0) g x (1000 mg/1g) x (1000 ml/mL water sample) VS (mg/L) = (W1-W2) gx (1000 mg/1 g) x (1000 ml/mL water sample) FS (mg/L) = (W2-W0) g x (1000 mg/1g) x (1000 ml/mL water sample) For Gooch crucible WO = weight of Gooch crucible + filter paper W1 = weight of Gooch crucible + filter paper + suspended solids after 103 C drying W2 = weight of Gooch crucible + filter paper + fixed suspended solids after 550 C ignition TSS (mg/L) = (W1-W0g x (1000 mg/1g) x (1000 ml/mL water sample) VSS (mg/L) = (W1 - W2) gx (1000 mg/1g) x (1000 ml/mL water sample) FSS (mg/L) = (W2-W0) gx (1000 mg/1g) x (1000 ml/mL water sample ) + Given the following data from solids test. Sample volume was 108.294 mL in solids test. For this question, determine fixed solids (FS). Unit of solids in your answer is mg/L. Tare weight of evaporating dish (g) = 25.360948 Weight of evaporating dish plus residue after evaporating at 105C(9) = 25.360948 +0.0650 Weight of evaporating dish plus residue after ignition at 550C () = 25.360948 +0.0500 Weight of Whatman filter paper and tare (9) = 2.527947 Weight of Whatman filter paper, tare, plus residue after drying at 105C (g) = 2.527947 +0.0460 Weight of Whatman filter paper, tare, plus residue after ignition at 550 C (8) = 2.527947 +0.0110 Formula For evaporating dish WO = weight of evaporating dish W1 = weight of evaporating dish and total solids after 103 C drying W2 = weight of evaporating dish and fixed solids after 550 C ignition TS (mg/L) = (W1-W0) g x (1000 mg/1g) X (1000 ml/mL water sample) VS (mg/L) = (W1-W2) gx (1000 mg/ 1 g) x (1000 ml/mL water sample ) FS (mg/L) = (W2-W0g x (1000 mg/1g) x (1000 ml/mL water sample ) For Gooch crucible WO = weight of Gooch crucible + filter paper W1 = weight of Gooch crucible + filter paper + suspended solids after 103 C drying W2 = weight of Gooch crucible + filter paper + fixed suspended solids after 556 C ignition TSS (mg/L) = (W1-WO) gx (1000 mg/1g) x (1000 ml/mL water sample ) VSS (mg/L) = (W1 - W2) gx (1000 mg/1g) x (1000 ml/mL water sample ) FSS (mg/L) = (W2-W0) g x (1000 mg/1g) x (1000 ml/mL water sample)