Understanding chemical formulas is not only crucial for chemists but also for those in fields like biology, environmental science, and materials engineering. From deciphering the nutritional value of food to analyzing environmental pollutants, chemical formulas bridge the gap between theory and application.
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Chemical formulas are fundamental to the language of chemistry. They serve as concise representations of chemical compounds, conveying essential information about their composition and structure. By combining letters, numbers, and symbols, chemical formulas provide a shorthand for understanding the complexities of matter.
💥 Chemical Formulas ✅
✶ Common Salt ➠ NaCl
✶ Baking Soda ➠ NaHCO₃
✶ Washing Soda ➠ Na₂CO₃·10H₂O
✶ Caustic Soda ➠ NaOH
✶ Alum ➠ K₂SO₄·Al₂(SO₄)₃·24H₂O
✶ Potassium Permanganate ➠ KMnO₄
✶ Caustic Potash ➠ KOH
✶ Lime Water ➠ Ca(OH)₂
✶ Gypsum ➠ CaSO₄·2H₂O
✶ Plaster of Paris ➠ CaSO₄·½H₂O
✶ Chalk ➠ CaCO₃
✶ Limestone ➠ CaCO₃
✶ Marble ➠ CaCO₃
✶ Sal Ammoniac ➠ NH₄Cl
✶ Laughing Gas ➠ N₂O
✶ Litharge ➠ PbO
✶ Galena ➠ PbS
✶ White Lead ➠ 2PbCO₃·Pb(OH)₂
✶ Hydrochloric Acid ➠ HCl
✶ Aqua Regia ➠ HNO₃ + HCl (1:3)
✶ Dry Ice ➠ CO₂
✶ Horn Silver ➠ AgCl
✶ Heavy Water ➠ D₂O
✶ Producer Gas ➠ CO + N₂
✶ Marsh Gas ➠ CH₄
✶ Vinegar ➠ CH₃COOH
✶ Alcohol ➠ C₂H₅OH
✶ Sugar ➠ C₁₂H₂₂O₁₁
✶ Urea ➠ NH₂CONH₂
✶ Benzene ➠ C₆H₆
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