Learn to safely dive to depths of up to 100m using a mixture of oxygen, helium and nitrogen with SSI Hypoxic Trimix (100m). This course will teach you how to safely prepare and use hypoxic trimix gas mixtures, as well as how to identify and safely manage the risks associated with diving with these gases. You will also learn about the physiology of diving with hypoxic gases, and how to manage any potential problems that may arise. Upon successful completion of this course, you will be certified as a SSI Hypoxic Trimix (100m) diver.
With the SSI Hypoxic Trimix (100m) (Bali) course, you will be able to safely explore the depths of the ocean while using a mix of different gasses. This course will teach you how to use trimix, a gas mixture that is often used in deep sea diving, and how to safely dive to depths of up to 100m.
The SSI Hypoxic Trimix (100m) (Bali) course is a diving course that teaches divers how to safely dive using a mixture of nitrogen, oxygen, and helium. This course is designed for divers who want to extend their depth limits and explore deeper waters. The course covers topics such as dive planning, gas management, and safety procedures. Upon completion of the course, divers will be able to safely dive to depths of 100 meters using a trimix gas mix.
If you’re a diver who wants to push your limits and explore the depths of the ocean, then the SSI Hypoxic Trimix (100m) course is for you. This course will teach you how to safely use trimix gas mixtures to dive deeper than ever before. Here are 5 reasons why you should take the SSI Hypoxic Trimix (100m) course:
1. Learn how to safely use trimix gas mixtures for diving
Trimix is a gas mixture that is used for diving at depths where there is not enough oxygen in the water to support life. This gas mixture contains oxygen, nitrogen, and helium. The percentage of each gas in the mixture is carefully controlled to ensure that the diver has enough oxygen to breathe, while not having too much nitrogen in their system.
Trimix is typically used for diving at depths greater than 100 meters, where the oxygen percentage in the gas mixture is less than 21%.
2. Explore the depths of the ocean beyond your previous limits
With SSI Hypoxic Trimix (100m) (Bali) you can explore the depths of the ocean beyond your previous limits. This course will teach you how to safely use trimix to dive deeper than ever before, and will give you the confidence to push your limits and explore the depths of the ocean.
3. Challenge yourself with a new and exciting diving adventure
With SSI Hypoxic Trimix (100m) (Bali), you can explore the depths of the ocean while staying safe and comfortable. This diving course will allow you to dive up to 100m, which is the deepest you can go without using specialized equipment. You will also learn how to safely use oxygen tanks and other diving equipment.
4. Earn an internationally-recognized certification
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5. Have a once-in-a-lifetime diving experience
The main reason to choose SSI Hypoxic Trimix (100m) (Bali) is because it is a very rare and unique diving experience. This is because the mix of gases used in this diving experience is very rare, and it is not often that people have the opportunity to dive with this mix. This makes it a very special and memorable experience for those who are able to do it.
Learn about the different gas mixtures used in SSI Hypoxic Trimix (100m) (Bali) diving.
In SSI Hypoxic Trimix (100m) (Bali) diving, there are three main gas mixtures used: air, nitrox and trimix.
Air is the most common gas mixture used in diving and is made up of 21% oxygen and 79% nitrogen.
Nitrox is a gas mixture that contains more oxygen than air. The most common nitrox gas mixture used in diving is 32% oxygen and 68% nitrogen.
Trimix is a gas mixture that contains more oxygen and less nitrogen than air. The most common trimix gas mixture used in diving is 21% oxygen, 35% helium and 44% nitrogen.
SSI Hypoxic Trimix (100m) (Bali) Diving Safety Procedures
SSI Hypoxic Trimix (100m) (Bali) diving is a relatively safe activity, but there are still some risks involved. To help minimize these risks, there are certain safety procedures that should be followed.
Some of the safety procedures that should be followed when SSI Hypoxic Trimix (100m) (Bali) diving include:
– Make sure that you are properly trained and certified before attempting this type of diving.
– Always use a dive computer when diving hypoxic mixes, to help ensure that you do not exceed your safe depth limit.
– Make sure that you are familiar with the symptoms of hypoxia, and know how to recognize them in yourself and others.
– Use a dive buddy when diving hypoxic mixes, and make sure that both you and your buddy know the symptoms of hypoxia and how to recognize them.
– Make sure that you have a comprehensive dive plan before diving, and that you stick to that plan.
– Be aware of your surroundings and what is going on around you at all times.
SSI Hypoxic Trimix (100m) (Bali) diving equipment includes:
– A full face mask or helmet with integrated communications
– A rebreather or closed circuit breathing apparatus
– A diving suit or drysuit
– A life support system, including an oxygen tank and regulator
– A diving computer
– A depth gauge and bottom timer
The full face mask or helmet is necessary to protect the diver from the high pressures and temperatures found at depth. The rebreather or closed circuit breathing apparatus allows the diver to breathe a mix of oxygen and other gases, which is necessary to avoid oxygen toxicity. The diving suit or drysuit protects the diver from the cold water and keeps them dry. The life support system provides the diver with air, and the diving computer helps the diver to navigate and monitor their depth and time. The depth gauge and bottom timer are used to measure the depth and time spent at depth.
– The different techniques used in SSI Hypoxic Trimix (100m) (Bali) diving include using a Personal Dive Computer, Dive Tables, and a Decompression Meter.
– The different techniques used in SSI Hypoxic Trimix (100m) (Bali) diving include using a Personal Dive Computer, Dive Tables, and a Decompression Meter.
