In the absence of oxygen, glycolysis can occur through anaerobic respiration. During glycolysis, one molecule of glucose is broken down into two molecules of pyruvate, and in the process, a net gain of ATP is produced.

1. **ATP Production in Glycolysis**: During glycolysis, a total of 4 ATP molecules are produced, but 2 ATP molecules are consumed in the initial steps of the pathway. Therefore, the net gain is:

$$
\text{Net ATP} = 4 \, \text{ATP produced} - 2 \, \text{ATP consumed} = 2 \, \text{ATP}
$$

2. **Overall Yield**: Thus, for every molecule of glucose that enters glycolysis in the absence of oxygen, a net of **2 ATP** will be produced.

### Final Answer
**2 ATP** will be produced for every molecule of glucose that enters glycolysis in the absence of oxygen.

Question

In the absence of oxygen, glycolysis can occur through anaerobic respiration. During glycolysis, one molecule of glucose is broken down into two molecules of pyruvate, and in the process, a net gain of ATP is produced.

1. **ATP Production in Glycolysis**: During glycolysis, a total of 4 ATP molecules are produced, but 2 ATP molecules are consumed in the initial steps of the pathway. Therefore, the net gain is:

$$
   \text{Net ATP} = 4 \, \text{ATP produced} - 2 \, \text{ATP consumed} = 2 \, \text{ATP}
   $$

2. **Overall Yield**: Thus, for every molecule of glucose that enters glycolysis in the absence of oxygen, a net of **2 ATP** will be produced.

### Final Answer
**2 ATP** will be produced for every molecule of glucose that enters glycolysis in the absence of oxygen.

Knowee AI · Accepted Answer

In the absence of oxygen, glycolysis can occur through anaerobic respiration. During glycolysis, one molecule of glucose is broken down into two molecules of pyruvate, and in the process, a net gain of ATP is produced.

1. **ATP Production in Glycolysis**: During glycolysis, a total of 4 ATP molecules are produced, but 2 ATP molecules are consumed in the initial steps of the pathway. Therefore, the net gain is:

$$
   \text{Net ATP} = 4 \, \text{ATP produced} - 2 \, \text{ATP consumed} = 2 \, \text{ATP}
   $$

2. **Overall Yield**: Thus, for every molecule of glucose that enters glycolysis in the absence of oxygen, a net of **2 ATP** will be produced.

### Final Answer
**2 ATP** will be produced for every molecule of glucose that enters glycolysis in the absence of oxygen.

In the absence of oxygen, for every molecule of glucose that enters glycolysis, ____ ATP will be produced.

Question

In the absence of oxygen, for every molecule of glucose that enters glycolysis, ____ ATP will be produced.

Solution

Final Answer

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