By shagging your mom.
Planes produce carbon dioxide as a byproduct of burning jet fuel, contributing to greenhouse gas emissions and climate change. The aviation industry is working on improving fuel efficiency and exploring alternative fuels to reduce its carbon footprint.
No, carbon dioxide is not a chemical property. In fact, it isn't even a property. It is a molecule.
The cement work cannot reduce carbon dioxide. In fact, the cement work increases carbon dioxide because carbon dioxide is emitted during the production of cement.
No, breaking up a carbon dioxide molecule into its constituent atoms (carbon and oxygen) would result in separate carbon and oxygen atoms. The molecular structure and properties of carbon dioxide would no longer exist.
Test it with lime water. If the lime water goes milky you have carbon dioxide.
Yes, carbon dioxide and oxygen can be mixed together. In fact, the air we breathe is a mixture of various gases, including carbon dioxide and oxygen. However, the optimal ratio for breathing is about 21% oxygen and less than 1% carbon dioxide.
No, carbon dioxide is not a chemical property. In fact, it isn't even a property. It is a molecule.
Yes indeed! CO2 is in fact the same as carbon dioxide. The "C" in CO2 is the elemental symbol for "Carbon". The "O2" means that there are TWO oxygen molecules.
No, cells do not need carbon dioxide to survive. In fact, excessive carbon dioxide can be harmful and toxic to cells. Cells require oxygen for respiration, which is essential for producing energy.
No, coal is not a carbon sink. In fact, burning coal releases carbon dioxide into the atmosphere, contributing to climate change.
Carbon dioxide is non-flammable and does not support combustion, so it does not cause an explosion when exposed to flame. In fact, carbon dioxide is often used in fire extinguishers to suppress fires by displacing oxygen and cooling the flames.
When carbon dioxide is removed from the atmosphere, it does not release energy. In fact, the process of removing carbon dioxide typically requires energy input, such as in the case of carbon capture and storage technologies. This can involve various methods such as chemical absorption or adsorption, requiring energy for separation and storage of the captured carbon dioxide.