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Helicobacter pylori was discovered by J R Warren and B Marshall. Their work was published in 1983 in a Journal “The Lancet”.

Different strains of Helicobacter pylori exhibit high genetic heterogeneity. REFERENCES Research Articles Alm et al., 2000. Comparative genomics of Helicobacter…

Helicobacter pylori secretes a urease enzyme that converts urea into ammonia and bicarbonate. This helps to neutralize gastric acid.

Trichloroethylene (C2HCl3) is an organic compound of three elements: Carbon, Hydrogen, and Chlorine. The molecular weight of Trichloroethylene is 131.3875 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of all its elements.

Antimony(III) triacetate [Sb(CH3COO)3] is an organic compound of four elements: Antimony, Carbon, Hydrogen, and Oxygen. The molecular weight of Antimony(III) triacetate is 298.8926 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Antimony, Carbon, Hydrogen, and Oxygen.

Antimony(III) oxide [Sb2O3] is an inorganic compound of two elements: Antimony and Oxygen. The molecular weight of Antimony(III) oxide is 291.5182 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Antimony and Oxygen.

Aluminum acetotartrate [C6H7AlO8] is an organic compound of four elements: Carbon, Hydrogen, Aluminum, and Oxygen. The molecular weight of Aluminum acetotartrate is 234.0969384 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of  Carbon, Hydrogen, Aluminum, and Oxygen.

Aluminum acetate basic [(CH3COO)2AlOH] is an organic compound of four elements: Aluminum, Carbon, Hydrogen, and Oxygen. The molecular weight of Aluminum acetate basic is 162.0773384 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Aluminum, Carbon, Hydrogen, and Oxygen.

The molecular weight of Aluminum acetate dibasic [CH3COOAl(OH)2] is 120.0405384. Aluminum acetate dibasic [CH3COOAl(OH)2] is an organic compound of four elements: Aluminum,…

Barium sulfate [BaSO4] is an inorganic compound of three elements: Barium, Sulfur, and Oxygen. The molecular weight of Barium sulfate is 233.3906 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Barium, Sulfur, and Oxygen.

Barium nitrate [Ba(NO3)2] is an inorganic compound of three elements: Barium, Nitrogen, and Oxygen. The molecular weight of Barium nitrate is 261.33688 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Barium, Nitrogen, and Oxygen.

Benzene [C6H6] is an organic compound of two elements: Carbon and Hydrogen. The molecular weight of Benzene is 78.1122 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Carbon and Hydrogen.

Benzoic acid [C6H8O6] is an organic compound of three elements: Carbon, Hydrogen, and Oxygen. The molecular weight of Benzoic acid is 122.1217 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Carbon, Hydrogen, and Oxygen.

Sodium hypochlorite (NaOCl) is an inorganic compound of three elements: Sodium, Oxygen, and Chlorine. The molecular weight of Sodium hypochlorite is 74.44186928 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Sodium, Oxygen, and Chlorine.

Boric acid [H3BO3] is an inorganic compound of three elements: Hydrogen, Boron, and Oxygen. The molecular weight of Boric acid is 61.8332 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of all its elements.