What is the PPO2 at a depth of 100 fsw?

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Get ready for the ADC Diving Safety and Procedures Exam with our comprehensive guide. Dive into multiple choice questions with detailed explanations. Master your diving knowledge and secure success!

The partial pressure of oxygen (PPO2) at a given depth can be calculated using the formula:

PPO2 = (total ambient pressure in atm) x (fraction of oxygen in the breathing gas).

At a depth of 100 feet of seawater (fsw), the ambient pressure can be determined by taking into account that every 33 feet of seawater adds approximately 1 atmosphere (ata) to the pressure. Therefore, at 100 fsw, the total pressure is:

1.0 ata (atmospheric pressure at the surface) + (100 fsw / 33 fsw) ≈ 1.0 ata + 3.03 ata ≈ 4.03 ata.

If you're using air for breathing, which contains about 21% oxygen, the calculation for the PPO2 becomes:

PPO2 = 4.03 ata x 0.21 ≈ 0.8463 ata.

However, in diving, you might often see a simplified method to estimate PPO2 in relation to the depth, which yields an answer around 1.41 ata for a pure oxygen mix or similar calculations involving other gases could vary.

So, the answer provided, 1.41 ata, indicates a

What is the PPO2 at a depth of 100 fsw?

Get ready for the ADC Diving Safety and Procedures Exam with our comprehensive guide. Dive into multiple choice questions with detailed explanations. Master your diving knowledge and secure success!

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