No, as with any gas carbon dioxide is less soluble at higher temperatures.
sodium chloride
SO2
Carbon monoxide has a higher solubility as compared to carbon dioxide.
The carbon and oxygen atoms in carbon dioxide are strongly attracted to each other, and carbon dioxide in the air will only break up into separate carbon and oxygen atoms at very high temperatures, higher than the temperatures usually found in nature on earth. In green plants, however, a chemical called chlorophyll in the cells of the plants can use the energy of light (usually sunlight) to break apart the carbon dioxide into carbon and oxygen, even at ordinary temperatures. The oxygen is released into the air, and the carbon is combined with other elements to create sugars, starches, cellulose, and other organic compounds that become part of the plant.
Carbon Dioxide can be poured because its density is higher than air which makes it sit lower. So if you take a test tube filled with carbon dioxide, then you can pour it just like a liquid.
No, like any gas it is less soluble at higher temperatures.
Higher temperature will cause the carbonation to escape faster, if the soda is opened. If the soda is not opened, temperature will have no effect but to increase the pressure inside of the container.
sodium chloride
Temperatures are becoming higher than expected. [APEX]
Temperatures are becoming higher than expected. [APEX]
It doesn't exactly "skip" the liquid phase, it's just that at normal atmospheric pressure there IS no liquid phase for carbon dioxide. At higher pressures, it is possible to liquefy carbon dioxide. There's no simplistic explanation for why the triple point pressure for carbon dioxide is higher than around 100 kPa, it just is.
Australian scientist Dr Paul Beggs has found that increased levels of carbon dioxide and higher temperatures are having a direct impact
SO2
Carbon monoxide has a higher solubility as compared to carbon dioxide.
The more carbon dioxide in the atmosphere, the higher the temperature.
The carbon and oxygen atoms in carbon dioxide are strongly attracted to each other, and carbon dioxide in the air will only break up into separate carbon and oxygen atoms at very high temperatures, higher than the temperatures usually found in nature on earth. In green plants, however, a chemical called chlorophyll in the cells of the plants can use the energy of light (usually sunlight) to break apart the carbon dioxide into carbon and oxygen, even at ordinary temperatures. The oxygen is released into the air, and the carbon is combined with other elements to create sugars, starches, cellulose, and other organic compounds that become part of the plant.
Solid carbon dioxide, also known as dry ice, forms at tempuratures below −78.5 °C (−109.3 °F). There are few places on the planet that ever get this cold. Dry ice would quickly evaporates at higher temperatures.