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In scuba diving, the ability to maintain neutral buoyancy through controlled breathing, accurate weighting, and management of the buoyancy compensator is an important skill. A scuba diver maintains neutral buoyancy by continuous correction, usually by controlled breathing, as neutral buoyancy is an unstable condition for a compressible object ...
Any change in depth from a position of neutral buoyancy and even small changes in volume, including the act of breathing, result in a force toward an even less neutral depth. Thus, maintenance of neutral buoyancy in scuba is a continuous and active procedure—the diving equivalent of balance, in a positive feedback environment. Fortunately ...
Divers wear diver weighting systems, weight belts or weights to counteract the buoyancy of other diving equipment, such as diving suits and aluminium diving cylinders, and buoyancy of the diver. The scuba diver must be weighted sufficiently to be slightly negatively buoyant at the end of the dive when most of the breathing gas has been used ...
Scuba divers with good trim and neutral buoyancy. The trim of a diver is the orientation of the body in the water, determined by posture and the distribution of weight and volume along the body and equipment, as well as by any other forces acting on the diver. Both static trim and its stability affect the convenience and safety of the diver ...
Neutral buoyancy is an unstable condition; any deviation tends to increase until corrected by the diver, and the degree of instability is proportional to the volume of compressible material on the diver, which includes the air in the lungs, diving suit, and buoyancy compensator. To minimise this instability the amount of gas needed to attain ...
Increased buoyancy of the BCD and dive suit due to gas expansion could cause a runaway ascent so air is vented as the divers ascend to retain approximately neutral buoyancy. At the end of the dive the BC should contain only a small amount of gas to support the unused gas in the cylinders.
Buoyancy control is easier, more stable, and safer when the gas volume needed to achieve neutral buoyancy is minimised, particularly at the end of a dive during ascent and decompression. The need for a large volume of gas in the buoyancy compensator during ascent increases risk of an uncontrolled buoyant ascent during decompression.
[1] [2] Buoyancy control, and being able to maintain neutral buoyancy in particular, is an important safety skill. The diver needs to understand buoyancy to effectively and safely operate drysuits, buoyancy compensators, diving weighting systems and lifting bags. [3]
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