An atmospheric discharge of static electricity is called lightning.
an example for this would be thunder. thunder is heat and friction which causes lightning bolts.
light, heat, and sound
Lightning
Lightning.
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.
One technological use of static electricity is in car painting, where the spray nozzle is connected to a negative electrode. The car part is charged with opposite charge, where the paint droplets are attracted to the car body part.
Thunder is the sound produced by lightning. Lighting is an enormous discharge of static electricity, which superheats the air along a narrow channel. The air expands rapidly, producing a shockwave we hear as thunder.
Benjamin Franklin is famous for his kite experiment, which proved that lightning is an electrical phenomenon. When the negative charges in the key came in contact with the positive charges in his body, a spark jumped from the key to his hand, thus proving that lightning is a form of static electricity.
You get a shock when electrons move from a negatively charged surface to a less negatively charged surface. You see a shock then the electrond flow through the air... and ZAP... you feel it too. The electricity has an "easier" time moving though the air when it is dry, so you need less of a charge to get a shock. When there's more moisture in the air, it's tougher! It's the other way around. Moist air conducts electricity better than dry air, so charge bleeds off quickly. When the air is dry, the electrons can hang around on your body for a long time, charging you up to thousands of volts. That can last until you touch something that can conduct them away, like a doorknob or your significant other. Electronics manufacturers have a devil of a time with static jumping onto sensitive parts and damaging them. Electronic assembly areas typically have to keep the humidity above a specified level (maybe 40%) to reduce the charge on the workers.
Ozone
light heat and sound (also maybe a bit of ozone)
When static electricity is discharged, it can create a spark due to the rapid movement of electrons. This spark can heat up the surrounding air, causing it to emit light in the form of a small flash. It is similar to how lightning produces light and heat during a discharge.
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).
Static electricity is discharged when the excess electrons on an object move to another object with fewer electrons, creating a balance in the charge between the two objects. This discharge can happen through various means, such as grounding or through a spark when the potential difference between the objects is high enough to overcome the insulating properties of the air.
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.
Moisture in the air can help dissipate static electricity because water molecules are good conductors of electricity. This can prevent the accumulation and discharge of static charges on surfaces or objects. In drier conditions, static electricity is more likely to build up and cause sparks or shocks.
A barometer measures air pressure, which can be affected by static electricity. Changes in air pressure can create conditions conducive to static electricity buildup. High static electricity levels can be generated in low-pressure weather systems, while grounded conductors can help dissipate static electricity in high-pressure systems.
Static electricity can't because first off it all it is the transferreing of electrons to other atoms. It can atucallty pollute the air.