As NO2 concentration decreases, ozone concentration increases. This is because NO2 has to become NO so that extra Oxygen can join atmospheric O2 and form O3. From 12pm-4pm, we see a peak in ozone concentrations, the more sun, the more O3 will form, and so hotter times of day, or the hours of the day that receive the most direct sunlight are where we will see the most formation of ozone.
hi mr smedes, i hope you can see this, first of all, thank you for all your videos, i never thought that i could fully understand the concept of photochemical smog until i watched this. secondly, will we need to know about the p and the s waves for the test? thanks
1) 3:22 Photochemicals smog precursors & conditions.
2) 5:14 Normal O3 formation
3) 9:06 Factors that increase smog formation.
this dude is saving my grade rn
As NO2 concentration decreases, ozone concentration increases. This is because NO2 has to become NO so that extra Oxygen can join atmospheric O2 and form O3. From 12pm-4pm, we see a peak in ozone concentrations, the more sun, the more O3 will form, and so hotter times of day, or the hours of the day that receive the most direct sunlight are where we will see the most formation of ozone.
may God bless you for this charity of knowledge
hi mr smedes, i hope you can see this, first of all, thank you for all your videos, i never thought that i could fully understand the concept of photochemical smog until i watched this. secondly, will we need to know about the p and the s waves for the test? thanks
this helped me a lot! thank you!
This was excellent, thank you!
Good video man helped me with my slides!
Yay ❤