How does lighting & thunder occur?

2 ANSWERS

1. 
   

   From the National Severe Storm Laboratory:
   
   -The creation of lightning is a complicated process. We generally know what conditions are needed to produce lightning, but there is still debate about exactly how lighting forms.The exact way a cloud builds up the electrical charges that lead to lightning is not completely understood. Precipitation and convection theories both attempt to explain the electrical structure within clouds. Precipitation theorists suppose that different size raindrops, hail, and graupel get their positive or negative charge as they collide, with heavier particles carrying negative charge to the cloud bottom. Convection theorists believe that updrafts transport positive charges near the ground upward through the cloud while downdrafts carry negative charges downward. What follows is a summary of what we know.
   
   Thunderstorms have very turbulent environments - strong updrafts and downdrafts occur often and close together. The updrafts carry small liquid water droplets from the lower regions of the storm to heights between 35,000 and 70,000 feet - miles above the freezing level. At the same time, downdrafts are transporting hail and ice from the frozen upper parts of the storm. When these particles collide, the water droplets freeze and release heat. This heat keeps the surface of the hail and ice slightly warmer than its surrounding environment, and a soft hail, or graupel forms.
   
   When this graupel collides with additional water droplets and ice particles, a key process occurs involving electrical charge: negatively charged electrons are sheared off the rising particles and collect on the falling particles. The result is a storm cloud that is negatively charged at its base, and positively charged at the top.
   
   Opposite charges attract one another. As the positive and negative areas grow more distinct within the cloud, an electric field is created between the oppositely-charged thunderstorm base and its top. The farther apart these regions are, the stronger the field and the stronger the attraction between the charges. But we cannot forget that the atmosphere is a very good insulator that inhibits electric flow. So, a HUGE amount of charge has to build up before the strength of the electric field overpowers the atmosphere's insulating properties. A current of electricity forces a path through the air until it encounters something that makes a good connection. The current is discharged as a stroke of lightning.
   
   While all this is happening inside the storm, beneath the storm, positive charge begins to pool within the surface of the earth. This positive charge will shadow the storm wherever it goes, and is responsible for cloud-to-ground lightning. However, the electric field within the storm is much stronger than the one between the storm base and the earth 's surface, so about 75-80% of lighting occurs within the storm cloud.
   
   Thunder is caused by lightning. The bright light of the lightning flash caused by the return stroke mentioned above represents a great deal of energy. This energy heats the air in the channel to above 50,000 degrees F in only a few millionths of a second! The air that is now heated to such a high temperature had no time to expand, so it is now at a very high pressure. The high pressure air then expands outward into the surrounding air compressing it and causing a disturbance that propagates in all directions away from the stroke. The disturbance is a shock wave for the first 10 yards, after which it becomes an ordinary sound wave, or thunder. Thunder can seem like it goes on and on because each point along the channel produces a shock wave and sound wave.

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2. 
   

   You ever shock yourself?  You built up a static charge that was different from the conductor you touched.  This created a "potential difference", which you've heard called voltage before.  
   
   Current(the FLOW of charge) wants to flow across a potential difference(and current is what hurts!)but air isn't a good conductor so it would take a HUGE voltage for current to flow.  Well when you touch a metal doorknob or something BAM, current flows until you and the doorknob are at the same potential, which takes an instant
   
   So in a thunderstorm, all this wet air blowing around eventually causes there to be a HUGE voltage between the ground and some place in the cloud, so large and BAM, current flows through AIR.  This generates a LOT of heat, it's so hot that it makes the air near it expand rapidly, it expands so fast you HEAR it, and that's thunder
   
   just kidding, Thor throws them and then hits things with his hammer, duh

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