If you use the definition of electricity as; The supply of electric current to a house or other building for heating, lighting, or powering appliances, then any voltage will fit into this range.
Pylons are there to carry electric wires which send large amounts of electrical energy across the country from where it is generated to where it is used. Pylons usually carry electricity at many thousands of volts because this is the efficient way to transmit it. Typical voltages on pylons are 100,000 volts up to a limit of about a million volts. The wires carried on pylons are usually made of stranded aluminium with a steel core, with overall diameters up to about one inch. A line of pylons carrying six wires making up two 3-phase circuits and operating at 132,000 volts can carry a power of about 200 megawatts, enough for a town of 200,000 people.
Phone lines operate at 48 volts when you pick the phone up to make a call and while talking, but 90 volts are sent to the phone you are calling to make the phone ring. This is a holdover from the old rotary phones that had the bells that were struck by a little hammer.
The voltage isn't decided by the lamp, but by the supply the lamp is hooked up to.
It is a component or substance which reduces the flow of electricity in a circuit. Their will be one in your mobile phone charger to stop 240/230 volts being routed into your phone( which would probably charge it very quickly but then it would blow up!) Also a resistor is the opposite of a conductor i.e something that resists conducting electricity.
A: LED follows an exponential curve just like a regular diode. However their make up moves the forward voltage from 1.8 volts to 3.2 volts and higher this differs from a regular diode where is the forward voltage is around .6 to.7 volts. Because of the higher voltage across these devices they cannot dissipate much power.
Static electricity shocks typically range from 3,000 to 25,000 volts, although they can sometimes reach up to 100,000 volts. The amount of voltage generated depends on various factors such as humidity levels, surface materials, and the movement of the person being shocked.
The electric eel frequently emits low voltage pulses for navigational purposes and to communicate. When using it in defense or when hunting they are capable of shocks of up to 600v.
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.
This form of lightning bolt can produce as much as 10 times the amount of a normal lightning bolt which 1 billion volts of electricity. That means that this type of lightning bolt can produce upto 10 billion volts of electricity.
an electric eel can produce up to 400 volts of electricity. this is more than enough to kill a human.
It can produce up to 600 volts. It is not really an eel but a part of the group called knifefish. It is considered an apex predator.
Step up transformer.
At least 3000 volts of static electricity must build up before a person can feel ESD. For example, static electricity can build up on you as you walk across a carpeted floor. When you touch another person, you both receive a shock. If the discharge causes pain or makes a noise, the charge was probably above 10,000 volts. By comparison, less than 30 volts of static electricity can damage a computer component.
An electric eel can generate up to 600 volts of electricity in one electric shock.
6 volts
Lemons And Limes do make electricity but not a lot.
The electrons make up the electricity. For commercial production of electricity one needs to move the turbine in a magnetic field.