If CO2 and ozone are added together, nothing happens. In other words, no reaction occurs. Carbon dioxide is extremely unreactive. At most, CO2 represents oxygen tied up that would otherwise increase the available oxygen to make ozone in the "ozone layer".
Color assignments on maps of concentrations of any constituent are arbitrary, and provided as a key on the map. There is no "natural" means of providing such a representative color. On the maps provided by the US-NASA, high ozone concentrations are yellow or white, and low concentrations are depected as dark blue, with intermediate values usually in red. So on US-NASA maps, the ozone hole is usually shown as a red circle with a blue center, when it is winter at that pole. See the link below.
During Antarctic spring, ozone is produced faster than the decay rate of ozone, which is why the ozone hole heals shut during its spring. So the question assumes the untrue. Over the Antarctic, the "ozone hole" represents equilibrium between the amount of UV-C received, and the chemicals / processes that serve to destroy ozone... located over the Antarctic. Diffusion is very low both vertically, or horizontally across any jet stream components present.
The ozone hole is significant because it represents a thinning of the ozone layer in the Earth's stratosphere, which protects us from harmful ultraviolet (UV) radiation. The depletion of ozone is primarily caused by the release of chlorofluorocarbons (CFCs) and other ozone-depleting substances. This has led to increased levels of UV radiation reaching the Earth's surface, posing risks to human health, ecosystems, and agriculture.
No. The ozone is stratosphere is good ozone. The ozone in troposphere is bad ozone.
The word ozone represents the same stuff in the French and English languages.
The ozone over Antarctica is very less. The areas with less ozone are shown with purple color.
I think that would be the Ozone
If CO2 and ozone are added together, nothing happens. In other words, no reaction occurs. Carbon dioxide is extremely unreactive. At most, CO2 represents oxygen tied up that would otherwise increase the available oxygen to make ozone in the "ozone layer".
Color assignments on maps of concentrations of any constituent are arbitrary, and provided as a key on the map. There is no "natural" means of providing such a representative color. On the maps provided by the US-NASA, high ozone concentrations are yellow or white, and low concentrations are depected as dark blue, with intermediate values usually in red. So on US-NASA maps, the ozone hole is usually shown as a red circle with a blue center, when it is winter at that pole. See the link below.
During Antarctic spring, ozone is produced faster than the decay rate of ozone, which is why the ozone hole heals shut during its spring. So the question assumes the untrue. Over the Antarctic, the "ozone hole" represents equilibrium between the amount of UV-C received, and the chemicals / processes that serve to destroy ozone... located over the Antarctic. Diffusion is very low both vertically, or horizontally across any jet stream components present.
The ozone hole is significant because it represents a thinning of the ozone layer in the Earth's stratosphere, which protects us from harmful ultraviolet (UV) radiation. The depletion of ozone is primarily caused by the release of chlorofluorocarbons (CFCs) and other ozone-depleting substances. This has led to increased levels of UV radiation reaching the Earth's surface, posing risks to human health, ecosystems, and agriculture.
O = oxygen atom O2 = dioxygen molecule O3 = ozone molecule H2 = dihydrogen molecule
No. The ozone is stratosphere is good ozone. The ozone in troposphere is bad ozone.
The tropospheric ozone is bad ozone. It acts as a pollutant.
You are thinking of ozone.
Most of the ozone is found there. The ozone present there is good ozone.