There is no straightforward answer to your question. A tesla is the unit of measurement for magnetic flux density, defined in terms of magnetic flux per unit area. Magnetic flux density is determined by the magnetic field strength of the magnetic circuit in question which is expressed in ampere (turns) per metre. Unfortunately, the relationship between magnetic field strength and flux density isn't straightforward, as it depends on the shape of the B/H curve for the magnetic circuit's material. So, as you can see, there are too many unknown variables to give you a straightforward answer.
Electric current is measured in amperes. 1 ampere = 1 coulomb/second
This depends on what you are meaning by "Average". A typical small generator you can throw in the back of a truck will produce 120 volts, some can do 240. Building backup generators would produce whatever voltage is needed for that building (if it's a plant that using 480 volts, it will produce 480 volts). "Large" Wind turbine generators often produce 600-1000 volts; good sized power plants (100MW and up) will typically have a terminal voltage of 10-30kV.
Less than 5 volts
"AC" is just a scientific term that refers to the fact that this generator produces electricity in an Alternating Current as opposed to "DC" which refers to Direct Current. Commonly, the plug outlet on the wall is AC, and the little black box electrical adapter for your cordless telephone is changing that AC current into DC current for the phone to work on. The phone line in your house runs on 24 volts DC, where the wall sockets are 124 volts AC.
In three-phase systems, we always consider individualline or phase currents, or individual line or phase voltages. In other words, we treat currents and voltages no differently from single-phase currents or voltages (i.e. we don't 'combine' them because they are three-phase quantities). So these quantities are expressed in r.m.s. values.
Your first touch of live primary Tesla coil voltage (10000 volts) has a good chance of being fatal and will easily stop your heart. The coil dicharge goes up to one and a half millions volts.
yes they produce 1.5 volts
Van De Graff generator for static electricity, a very large Tesla Coil could produce this level of voltage in AC electricity.
Volts
Zero volts.
This will still only produce 12 volts. It will produce 1200 watts. watts is the result of Volts times Amps.
13.5-16 volts DC
none!
It is called the magnetic moment. See the link below for more information.
Tesla, a local contractor, and several assistants commenced the construction of the laboratory shortly after arriving in Colorado Springs. According to accounts, Tesla used it to transmit tens of thousands of watts of power wirelessly; it could generate millions of volts of electricity and produce lightning bolts more than one-hundred feet (30 m) long. Tesla posted a large fence around it with a sign "Keep Out - Great Danger". The lab was established on Knob Hill.
I'm not sure I understand your question. An alternator will have to produce 13 volts to charge a battery at 13 volts. Most alternators are able to produce 14+ volts but the range is 13.5 to about 15.5 volts.
It had better be in joules. Watts and volts are not units of energy. yes, but how many as in ? joules/sec