Liquid oxygen is not flammable, but it can support combustion. When handling liquid oxygen, safety precautions should include wearing appropriate protective gear, ensuring proper ventilation to prevent oxygen enrichment, and avoiding contact with flammable materials to prevent fire hazards.
No, oxygen tanks themselves are not flammable. However, pure oxygen can accelerate combustion and make flammable materials burn more quickly and intensely. Special precautions are necessary to prevent fires or explosions when handling oxygen tanks.
Liquid oxygen is dangerous because it is extremely cold and can cause severe frostbite upon contact with skin. It is also highly reactive and can cause materials to ignite easily. Precautions when handling liquid oxygen include wearing appropriate protective gear such as gloves and goggles, ensuring proper ventilation to prevent buildup of oxygen-rich atmosphere, and storing it in well-ventilated areas away from flammable materials.
Yes, liquid oxygen is not flammable, but it can greatly enhance the flammability of other materials.
Yes, promethium is flammable. It can ignite spontaneously in air and react with oxygen to produce heat and flames. Special precautions are necessary when handling promethium to prevent accidental fires.
Neptunium is a radioactive metal that is not combustible under normal conditions. However, it can react with oxygen in the air to form oxides, which can be potentially flammable. Special precautions are taken when handling neptunium due to its radioactive nature.
No, oxygen tanks themselves are not flammable. However, pure oxygen can accelerate combustion and make flammable materials burn more quickly and intensely. Special precautions are necessary to prevent fires or explosions when handling oxygen tanks.
Liquid oxygen is dangerous because it is extremely cold and can cause severe frostbite upon contact with skin. It is also highly reactive and can cause materials to ignite easily. Precautions when handling liquid oxygen include wearing appropriate protective gear such as gloves and goggles, ensuring proper ventilation to prevent buildup of oxygen-rich atmosphere, and storing it in well-ventilated areas away from flammable materials.
Yes, liquid oxygen is not flammable, but it can greatly enhance the flammability of other materials.
Yes, promethium is flammable. It can ignite spontaneously in air and react with oxygen to produce heat and flames. Special precautions are necessary when handling promethium to prevent accidental fires.
Magnesium is highly flammable and burns at very high temperatures, producing a bright white light. It can react with oxygen in the air and ignite spontaneously. Proper precautions should be taken when handling magnesium to prevent fire hazards.
Storing and using liquid oxygen at home requires special precautions. It should be kept in a well-ventilated area away from heat sources and flammable materials. Use proper containers designed for liquid oxygen and follow safety guidelines provided by the manufacturer. Only use liquid oxygen for its intended medical purposes and avoid inhaling or coming into direct contact with the liquid.
When acetone is mixed with oxygen, it can potentially increase the risk of fire or explosion due to its flammable nature. Proper precautions should be taken when handling acetone in the presence of oxygen, to avoid any accidents. It is important to store acetone in a well-ventilated area away from any potential sources of ignition.
Neptunium is a radioactive metal that is not combustible under normal conditions. However, it can react with oxygen in the air to form oxides, which can be potentially flammable. Special precautions are taken when handling neptunium due to its radioactive nature.
Yes, natural gas is highly flammable and can explode if it is ignited in an enclosed space with the right amount of oxygen. It is important to follow safety guidelines and precautions when handling or using natural gas to minimize the risk of explosions.
Oxygen is not flammable but is necessary for combustion.
Liquid nitrogen is colder than liquid oxygen. You use the liquid nitrogen to chill the oxygen in the air and liquid oxygen will form. Liquid water and dry Ice (CO2) should also form due to their presence as well, but not in large quantity. WARNING!! High concentrations of oxygen should be considered dangerous. When exposed to a small ignition source, it can cause flammable materials to combust much like an explosion, and will cause normally non flammable materials to burn readily. Human flesh burns better than wood after being exposed to 100% oxygen for a period of time. Please be careful.
Oxygen is not flammable