The production process of antimony ore varies depending on the type of ore. For low-grade ore, the flotation method is used to enrich antimony, while high-grade ore can be melted at 500–600 °C to extract antimony from the gangue. Additionally, iron filings can be employed to reduce antimony sulfide and separate antimony.

Heating an ore of antimony ( S b 2 S 3 ) in the presence of iron yields antimony and iron (II) sulfide according to the following equation. S b 2 S 3 + 3 F e 2 S b + 3 F e S When 15g of S b 2 S 3 reacts with 10g of F e in the lab, 9.84g of S b i

Heating an ore of antimony (Sb2S3) in the presence of iron gives the element antimony and iron(II) sulfide. Sb 2 S 3 + 3Fe→2Sb + 3FeS When 15 Sb 2 S 3 reacts with an excess of Fe, 9 g Sb is produced. What is the percent yield of this reaction? 92%

heating an ore of antimony and iron II sulfide. Sb2S3+3Fe-->2Sb+3FeS when 15g Sb2S3 reacts with an excess of Fe, 9.84g Sb is produced. what is the pecent yeild of this reaction? ... Heating an ore of antimony (Sb2S3) in the presence of iron gives the element antimony and iron(II) sulfide. Sb2S3(s) + 3Fe(s) ==> 4 answers; asked by Ken;

Question: 1. Heating an ore of antimony (Sb2S3) in the presence of iron gives the element antimony and iron (II) sulfide. SHOW ALL WORK Sb2S3 (s) +3 Fe (s) →2 Sb (s) +3 Fe …

Heating an ore of antimony (Sb2S3) in the presence of iron gives the element antimony and iron(II) sulfide. Sb2S3 (s) + 3Fe(s) → 2Sb(s) + 3FeS(s) When 15.0 g Sb2S3 reacts with an excess of Fe, 9.84 g Sb is produced. What is the percent yield of this reaction? 91.5%.

Heating an ore of antimony (Sb2S3) in the presence of iron gives the element antimony and iron(II) sulfide. Sb2S3(s) + 3 Fe(s) 2 Sb(s) + 3 FeS(s) When 10.9 g Sb2S3 reacts with an excess of Fe, 9.84 g Sb is produced. What is the percent yield of this reaction? could you please give me the answer to this problem, im struggling with it. THANKS!!

Heating an ore of antimony (S b 2 S 3) in the presence of iron gives the element antimony and i r o n (I I) sulfide. S b 2 S 3 (s) + 3 F e (s) ⇌ 2 S b (s) + 3 F e S (s). When 15.0...

 — Sulfur in Sb2S3, iron and zinc contained in goethite residues was conserved in matte as marketable Fe2Zn3S5, FeS, and ZnS, instead of forming gaseous SO2. ... The mass loss of antimony sulfide ore ...

Question: Q1: Antimony is obtained by heating pulverized stibnite (Sb2S3 ) with scrap iron and drawing off the molten antimony from the bottom of the reaction vessel: Sb2S3 + 3Fe + 2Sb + 3Fes Suppose that 0.600 kg of stibnite and 0.250 kg of iron turnings are heated together to give 0.200 kg of Sb metal. Determine a. The limiting reactant b.

Pure antimony (Sb) can be prepared by heating the antimony ore (Sb2S3) in the presence of iron as follows: Sb2S3 + 3Fe ==> 2Sb + 3FeS If 406.2 g of antimony sulfide is reacted with iron and 76.1 g of pure antimony is produced, what is the % yield for this reaction?

heating an ore of antimony sulfide in the presence of iron gives th element antimony and iron(2) sulfide. when 15.0 antimony sulfide reacts with an excess of iron, 9.84 g Showing results 1 through 10 of 14,547.

heating an ore of antimony sb2s3. Heating an ore of antimony Sb2S3 in the presence of . chemistry Heating an ore of antimony Sb2S3 in the presence of iron gives the element antimony and iron II sulfide Sb2S3 s 3 Fe s 2 Sb s 3 FeS s You don t have an arrow in the equation I assume you know where it goes Place it there first thing 2 …

Heating antimony sulfide, Sb;5), in the presence of iron gives the element antimony and iron(II) sulfide. Sb2S30) + 3 Few → 2 Sb . 3 FeS Q. How many moles of Sb2S, are needed to react with an excess amount of iron …

Pure antimony (Sb) can be prepared by heating the antimony ore (Sb2S3) in the presence of iron as follows: Sb2S3 + 3Fe ==> 2Sb + 3FeS If 438.6 g of antimony sulfide is reacted …

 — Pure antimony (Sb) can be prepared by heating the antimony ore (Sb2S3) in the presence of iron as follows: Sb2S3 + 3Fe ==> 2Sb + 3FeS If 353.6 g of antimony sulfide is reacted with iron and 24.9 g of pure antimony …

Heating an ore of antimony (Sb2S3) in the presence o Iron gives e element antimony and iron (Il) sulfide. When 15.0 g Sb2S3 reacts with an excess ofFe, 9.84 g Sb is produced. What is the percent yield of this reaction? (s) + 3Fe (s) 2 Sb (s) + 3FeS (s) )QISÐSJ ) 3. When 50.0 g of silicon dioxide is heated with an excess of carbon, 32.2 g of ...

Heating an ore of antimony (Sb2S3) in the presence of iron gives the element antimony and iron(II) sulfide. Sb2S3(s) + 3 Fe(s) 2 Sb(s) + 3 FeS(s) When 10.9 g Sb2S3 reacts with …

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 — Stibnite is a sulfide minerals with chemical composition is antimony sulfide (Sb2S3). The principal ore of antimony. Lead-gray to silvery gray in color, it often develops a black, iridescent tarnish on exposure to light. It normally occurs as elongated, prismatic crystals that may be bent or twisted.

Answer to Solved Antimony (Sb) is obtained by heating pulverized | Chegg.com

Heating an ore of antimony (Sb2S3) in the presence of iron gives the element antimony and iron(II) sulfide. Sb2S3 (s) + 3Fe(s) → 2Sb(s) + 3FeS(s) When 15.0 g Sb2S3 reacts with …

 — 1. Background. Antimony is a silvery, white, brittle, crystalline solid that exhibits poor conductivity of electricity and heat. It has an atomic number of 51, an atomic weight of 122 and a density of 6.697 kg/m 3 at 26 °C. Antimony metal, also known as 'regulus', melts at 630 °C and boils at 1380 °C.Antimony and the natural sulfide of …

 — Suppose 0.06 kg of stibnite and 0.25 kg of iron turnings are heated together to give 0.2 kg of Sb metal. Calculate: 1. The limiting reagent. 2. The percentage of …

Question: Q3 Antimony is obtained by heating pulverized stibnite (Sb2S3) with scrap iron and drawing off the molten antimony from the bottom of the reaction vessel: Sb2S3 + 3FeUnknown character Unknown character Unknown character2Sb + 3FeS Suppose that 0.600 kg of stibnite and 0.250 kg of iron turnings are heated together to give 0.200 kg of …

Question: Antimony (Sb) is obtained by heating pulverized stibnite (Sb2S3) with scrap iron and drawing off the molten antimony from the bottom of the reaction vessel. Suppose that 6 kg of stibnite and 2.5 kg of iron turnings are heated together to producc 2 kg of Sb mctal. MW of Sb2S, Fc, and Sb are 339.7, 55.85, and 121.8 respectively.

 — Earth-abundant antimony trisulfide (Sb2S3), or simply antimonite, is a promising material for capturing natural energies like solar power and heat flux. The layered structure, held up by weak van ...

Question: Antimony is obtained by heating pulverized stibnite (Sb2S3) with scrap iron and drawing off the molten antimony from the bottom of the reaction vessel:Sb2S3+3Fe→2Sb+3FeSSuppose that 1.200kg of stibnite and 0.50kg of iron turnings are heated together to give 0.400kg of Sb metal. Determinea. The …

Answer to: Heating an ore of antimony (Sb_2S_3) in the presence of iron gives the element antimony and iron(II) sulfide. Sb_2S_3 (s) + 3 Fe(s)...

Antimony is obtainedby heating pulverized stibnite (Sb,S,) with scrap iron and drawing off the molten antimony from the bottom of the reaction vessel: Sb. 2. S. 3 + 3Fe == 2Sb + 3FeS Suppose that 0.600 kg of sribnite and 0.250 kg of iron turnings are heated together to give 0.200 kg of Sb metal. Calculate: (a) The limiting reactant