In India, you have 14.2 Kg of gas filled in domestic cylinder. It contains methane and ethane mixed in "liquid" form. Mass of methane is 16 and that of ethane is 28. Mass of oxygen is 16*2=32. So roughly mass of them you take to be same. Now 1 gram of water turns up into into 1600 ml of vapour or gas. So mass of LPG is 14.2 and you round up it to 14 Kg. So mass of LPG is 14* 1000 =14,000 grams. So LPG would have in "Gas" form, it's mass would have 14,000/1600 = 8.75 grams. You round up it to 10 grams. (This should make up for, you have oxygen molecule heavier than LPG molecule.) So answer would be approximately "only" 10 grams of oxygen can be filled at room temperature, in LPG cylinder. If you store oxygen below minus 183 degree centigrade, you can store it in LPG cylinder and weight will be some where between 14 to 16 Kg.
In India, you have 14.2 Kg of gas filled in domestic cylinder. It contains methane and ethane mixed in "liquid" form. Mass of methane is 16 and that of ethane is 28. Mass of oxygen is 16*2=32. So roughly mass of them you take to be same. Now 1 gram of water turns up into into 1600 ml of vapor or gas. So mass of LPG is 14.2 and you round up it to 14 Kg. So mass of LPG is 14* 1000 =14,000 grams. So LPG would have in "Gas" form, it's mass would have 14,000/1600 = 8.75 grams. You round up it to 10 grams. (This should make up for, you have oxygen molecule heavier than LPG molecule.) So answer would be approximately "only" 10 grams of oxygen can be filled at room temperature, in LPG cylinder. Below minus 183 degree Celsius you have liquid oxygen. If you store oxygen below minus 183 degree centigrade, you can store it in LPG cylinder and weight will be some where between 14 to 16 Kg.
The pressure is 20,68 at.
Temperature has an effect on the amount of oxygen that water can hold. The resulting graph would be almost parabolic in nature as the amount of oxygen will increase at both a high and low temperature as seen with balloon expansion when filled with steam and also a soda can bulging when frozen.
Oxygen solubility in water is strange and does not follow "normal" solubility rules along with many other gases. The solubility increases as temperature decreases.
You got your terminology mixed up. Under normal temperature and pressure oxygen is a gas. * if you are testing an unknown substance put a glowing splint.
Animals respire. Plants respire. Fire uses oxygen. Rusting uses oxygen. Oxygen is removed from the atmosphere by 1. respiration 2. combustion and 3. gradual oxidation process at normal temperature and pressure. It is added to the atmosphere by photosynthesis of green plants.
At normal room temperature, oxygen is a gas.
Oxygen is a gas (in both forms: O2 and O3) at normal pressure and temperature.
The pressure is 20,68 at.
Oxygen is a gas at room temperature. Gold is a solid, water is a liquid, and lightning is an electrical discharge.
Temperature has an effect on the amount of oxygen that water can hold. The resulting graph would be almost parabolic in nature as the amount of oxygen will increase at both a high and low temperature as seen with balloon expansion when filled with steam and also a soda can bulging when frozen.
75 degrees Celsius
The aveoli of the lungs are filled with oxygen when you take a breathe in.
They have to carry oxygen cylinders with them as it allows them to breath at high altitude. The temperature also decreases as we go higher and higher.
No. This is impossible because we breath it in.
Oxygen solubility in water is strange and does not follow "normal" solubility rules along with many other gases. The solubility increases as temperature decreases.
Oxygen can be any temperature.
Gas