11) Determine the molecular formula and the empirical formula. Grey = C, Red = O, White = H. (Can you explain in detail how you get the numbers and solve the problem?)

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11) Determine the molecular formula and the empirical formula. Grey = C, Red = O, White = H.

(Can you explain in detail how you get the numbers and solve the problem?)

This image depicts a 3D chemical structure of glucose, represented in a ball-and-stick model. In this model:

- **Gray spheres** represent carbon (C) atoms.
- **Red spheres** represent oxygen (O) atoms.
- **White spheres** represent hydrogen (H) atoms.

Glucose is a simple sugar or monosaccharide with the molecular formula C₆H₁₂O₆. The structure shows the six carbon atoms forming a ring, which is a common presentation for glucose in solution. Each carbon atom is bonded to other atoms in a configuration that maximizes stability.

This model helps illustrate the spatial orientation and connectivity of atoms within the glucose molecule, which is essential for understanding its chemical properties and biological functions. Glucose plays a crucial role as an energy source in living organisms and is a key part of metabolic pathways.
Transcribed Image Text:This image depicts a 3D chemical structure of glucose, represented in a ball-and-stick model. In this model: - **Gray spheres** represent carbon (C) atoms. - **Red spheres** represent oxygen (O) atoms. - **White spheres** represent hydrogen (H) atoms. Glucose is a simple sugar or monosaccharide with the molecular formula C₆H₁₂O₆. The structure shows the six carbon atoms forming a ring, which is a common presentation for glucose in solution. Each carbon atom is bonded to other atoms in a configuration that maximizes stability. This model helps illustrate the spatial orientation and connectivity of atoms within the glucose molecule, which is essential for understanding its chemical properties and biological functions. Glucose plays a crucial role as an energy source in living organisms and is a key part of metabolic pathways.
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