Give the balanced chemical equation for Cellular Respiration (all balanced chemical equations require states for full credit)

Give the balanced chemical equation for Cellular Respiration (all balanced chemical equations require states for full credit)

Solid glucose (C6H120) & oxygen gas react to product carbon dioxide and water vapor •

The Correct Answer and Explanation is :

Balanced Chemical Equation for Cellular Respiration:

[
C_6H_{12}O_6 (s) + 6O_2 (g) \rightarrow 6CO_2 (g) + 6H_2O (g)
]

---

Explanation (300 words)

Cellular respiration is the biochemical process by which cells convert glucose into usable energy (ATP) through a series of metabolic pathways. The overall reaction represents aerobic respiration, which requires oxygen.

Breaking Down the Equation:

1. Reactants:

• Glucose (C₆H₁₂O₆) (s): A solid organic molecule that acts as the primary energy source.
• Oxygen (O₂) (g): A gaseous molecule required for aerobic respiration.

1. Products:

• Carbon dioxide (CO₂) (g): A gaseous waste product expelled during exhalation.
• Water vapor (H₂O) (g): Water in gaseous form, another byproduct.

Balancing the Equation:

• Glucose consists of 6 carbon atoms, 12 hydrogen atoms, and 6 oxygen atoms.
• Oxygen gas ((O_2)) is added as a reactant.
• The products include carbon dioxide and water vapor.

To balance:

1. Carbon atoms: 6 from glucose → 6 CO₂ molecules.
2. Hydrogen atoms: 12 from glucose → 6 H₂O molecules.
3. Oxygen atoms: 6 O₂ molecules (12 oxygen atoms) + 6 from glucose = 6 CO₂ (12 oxygen atoms) + 6 H₂O (6 oxygen atoms).

Importance of Cellular Respiration:

• This reaction releases energy (ATP), which is essential for cellular functions.
• Occurs in the mitochondria of eukaryotic cells.
• Helps maintain homeostasis by converting chemical energy into a usable form.

Overall, this balanced equation represents the complete oxidation of glucose in the presence of oxygen, producing energy, carbon dioxide, and water.