Answer :
Certainly! Let's analyze what happens to the energy in the bonds of glucose during the process of cellular respiration.
1. Understanding Cellular Respiration:
Cellular respiration is a metabolic process that cells use to extract energy from glucose. The general equation for cellular respiration is:
[tex]\[ C_6H_{12}O_6 + 6O_2 \rightarrow 6CO_2 + 6H_2O + \text{ATP} \][/tex]
2. Reactants and Products:
- Reactants: Glucose [tex]\((C_6H_{12}O_6)\)[/tex] and Oxygen [tex]\((O_2)\)[/tex]
- Products: Carbon Dioxide [tex]\((CO_2)\)[/tex], Water [tex]\((H_2O)\)[/tex], and ATP (\text{adenosine triphosphate})
3. Source of Energy:
- The energy in glucose is primarily stored in the chemical bonds between carbon, hydrogen, and oxygen atoms.
4. Transfer of Energy:
- During cellular respiration, these bonds are broken down, and the energy stored in these bonds must be transferred somewhere else.
5. Fate of Energy:
- Oxygen: Oxygen is used as a reactant to help transfer the electrons during the process but it does not store the energy from glucose bonds.
- Carbon Dioxide: CO_2 is a waste product in cellular respiration and carries away carbon atoms but is not the storage form of the energy.
- Water: H_2O is another waste product formed, but like CO_2, it does not store the energy from glucose bonds.
- ATP: ATP is the molecule that stores the energy released from glucose. It captures the energy in the form of high-energy phosphate bonds.
Therefore, the energy present in the bonds of glucose is transferred to ATP during cellular respiration.
So, the correct statement is:
The energy is transferred to ATP.
1. Understanding Cellular Respiration:
Cellular respiration is a metabolic process that cells use to extract energy from glucose. The general equation for cellular respiration is:
[tex]\[ C_6H_{12}O_6 + 6O_2 \rightarrow 6CO_2 + 6H_2O + \text{ATP} \][/tex]
2. Reactants and Products:
- Reactants: Glucose [tex]\((C_6H_{12}O_6)\)[/tex] and Oxygen [tex]\((O_2)\)[/tex]
- Products: Carbon Dioxide [tex]\((CO_2)\)[/tex], Water [tex]\((H_2O)\)[/tex], and ATP (\text{adenosine triphosphate})
3. Source of Energy:
- The energy in glucose is primarily stored in the chemical bonds between carbon, hydrogen, and oxygen atoms.
4. Transfer of Energy:
- During cellular respiration, these bonds are broken down, and the energy stored in these bonds must be transferred somewhere else.
5. Fate of Energy:
- Oxygen: Oxygen is used as a reactant to help transfer the electrons during the process but it does not store the energy from glucose bonds.
- Carbon Dioxide: CO_2 is a waste product in cellular respiration and carries away carbon atoms but is not the storage form of the energy.
- Water: H_2O is another waste product formed, but like CO_2, it does not store the energy from glucose bonds.
- ATP: ATP is the molecule that stores the energy released from glucose. It captures the energy in the form of high-energy phosphate bonds.
Therefore, the energy present in the bonds of glucose is transferred to ATP during cellular respiration.
So, the correct statement is:
The energy is transferred to ATP.
