Ozone
light heat and sound (also maybe a bit of ozone)
An atmospheric discharge of static electricity is called lightning.
Technically you can not get static electricity from the air. But, static electricity does depend on the air. during the winter, there is more of a chance you will be shocked.
That shock is caused by static electricity, or the build-up of charge on an object. As you do something that will help build that charge (like scuff along a carpet), static electricity on your person increases. Water is a better conductor of electricity than dry air. In humid air, the static electricity will be slowly discharged as it contacts the water vapor. When there is no water vapor, the static electricity is not conducted away from your body as it builds up, and it accumulates. At some point, you come close to a good conductor of electricity - a metal object, for instance - and the built-up charge discharges.
I think what you're asking are "do appliances run on current (AC, DC) or static electricity. The answer is: current, of course! That's what's generated by your household plug. Static electricity is really just a difference in charges being discharged by contact, be it direct (your hand to your car) or indirect (as in, through the air).
Any aircraft moving through the air generates static electricity.
Static electricity attracts dust, soot, and other pollutants form passing air or smoke.
Yes, it is static electricity caused by the charge build up from the movement of air over the earth.
Frictional electricity is observed more in winter than summer because of the static electricity which happens more in winter than in summer. Static electricity usually results when to materials that are dissimilar are rubbed together.
Static electricity can't because first off it all it is the transferreing of electrons to other atoms. It can atucallty pollute the air.
when 2 bodies are rubbed together,electrons are transferred this causes static electricity.
It affects by not allowing as much static electricity to stay on the balloon's surface. When the air has more moisture in it (humidity), the static electricity picked up is more likely to disperse in the air than stay on the surface area. As it's the opposite when the air is dry....when the balloon picks up the static electricity, it is more likely to hold on to it than in dryer air than disperse it like it does in warmer air.