What Is the Fluorenone Molecular Weight and Its Importance?

Understanding Fluorenone Molecular Weight

Fluorenone is a significant organic compound with diverse applications in various fields, including chemistry and pharmaceuticals. A thorough understanding of its molecular weight and importance can greatly enhance your grasp of its relevance in scientific contexts.

1. What is the Fluorenone Molecular Weight?

The molecular weight of fluorenone is approximately 180.23 g/mol. This value is crucial for calculations in chemical reactions, particularly in stoichiometry, where precise measurements are required to ensure successful outcomes in synthesis processes.

2. Why is the Molecular Weight Important?

The molecular weight of fluorenone plays several key roles:

• Stoichiometric Calculations: Accurate molecular weight allows chemists to determine the amounts of reactants needed for chemical reactions, ensuring that they achieve the best yield without waste.
• Purity Assessment: By understanding the expected molecular weight, analysts can determine the purity of fluorenone through techniques like mass spectrometry.
• Application Relevance: The molecular weight is vital when formulating pharmaceuticals or materials, affecting properties such as solubility and bioavailability.

3. How to Calculate Molecular Weight

Follow these steps to calculate the molecular weight:

1. Identify the chemical formula: The chemical formula of fluorenone is C13H10O. Understanding the composition is key to any molecular weight calculation.
2. Determine the atomic weights: Use a periodic table to find the atomic weights of carbon (C), hydrogen (H), and oxygen (O). In fluorenone, carbon is approximately 12.01 g/mol, hydrogen is about 1.01 g/mol, and oxygen is around 16.00 g/mol.
3. Perform the calculation: Multiply the atomic weight by the number of atoms in the molecular formula, then sum the results:

   (12.01 g/mol × 13) + (1.01 g/mol × 10) + (16.00 g/mol × 1) = 180.23 g/mol.

4. When to Use the Fluorenone Molecular Weight?

Understanding when to apply the fluorenone molecular weight is essential:

• During Chemical Reactions: Use the molecular weight to calculate the required quantities of fluorenone for synthesis in laboratory settings.
• In Quality Control: Apply the molecular weight when assessing the quality and concentration of fluorenone in products or compounds.
• During Research and Development: Utilize the fluorenone molecular weight to investigate its role in new material developments or pharmacological studies.

Conclusion

Understanding the fluorenone molecular weight is critical in various scientific fields due to its implications in stoichiometry, purity assessment, and practical applications. By mastering the calculation and relevance of this value, you equip yourself with essential knowledge that aids in effective chemical formulation and research. Keep fluorenone's properties in mind as you navigate the complexities of organic chemistry.

The company is the world’s best Silver Nanoparticles Supplier, nano gold solution supplier supplier. We are your one-stop shop for all needs. Our staff are highly-specialized and will help you find the product you need.