Supports life on earth
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.
Water at high temperature will have less dissolved gases including oxygen.
Oxygen can act as and oxidising agent and convert ethane to carbondioxide and water. But this takes place at high temperature.
Oxygen solubility in water is strange and does not follow "normal" solubility rules along with many other gases. The solubility increases as temperature decreases.
Physical characteristics of water are temperature, colour, turbidity, odor and taste, and solid content.
Earth. It is the only one with the right temperature, oxygen and water.
Temperature has a direct effect on the concentration of dissolved oxygen in water. As the temperature of the water increases, the solubility of oxygen decreases and the concentration of dissolved oxygen will decrease. Conversely, as the temperature of the water decreases, the solubility of oxygen increases and the concentration of dissolved oxygen will increase. Additionally, warmer water is generally less dense than colder water, resulting in less efficient oxygen transfer.
It can be, at the right temperature and pressure. At other pressuresand temperatures, it can be a liquid or a gas too.Just like water.
The amount of dissolved oxygen decreases when water temperature increases. Warm water is unable to dissolve as much oxygen gas.
Hydrogen and oxygen are both gases at room temperature, while water is a liquid at room temperature.
as temperature goes DOWN, oxygen content goes UP.
Water is not a mixture at any temperature. It is a compound of oxygen and hydogen.
A combination of fuel, oxygen, and a heat source. Everything has an ignition point, that is a temperature at which it will burn if there is oxygen to support the combustion.
The solubility of oxygen in water is temperature-dependent, and about twice as much (14.6 mg·L−1) dissolves at 0 °C than at 20 °C. To illustrate, recall bubbles forming in a pot of water right before it begins to boil; these bubbles are oxygen that was dissolved at room temperature, but is being ejected as the temperature rises. Oxygen can slip into the crevasses or “holes” that exist in the loose hydrogen-bonded network of water molecules without forcing them apart. A very physical perspective on solubility of oxygen in water is that when the water is colder, the water molecules move less, and the oxygen remains trapped in the aqueous solution.
Hydrogen and Oxygen
abiotic
The concentration of oxygen in water is 88,88 %.