The diameter of the coil affects the amount of electricity as longer the coil longer the electricity.
Since a coil contains numerous loops, more of the conductor is affectedÊ by the magnetic field. An increase in permeability of the core results in an increase in the inductance of the coil.
-A generator or alternator -A Faraday Induction Coil
A generator is tool that converts kinetic energy into electricity, through the use of magnets which is surrounded by magnetic fields. As a magnet starts turning its magnetic fields collide with a coil that surrounds the magnet. Which induces current, which is electricity.
A fathom is six feet in length. Rope is usually sold in 100 foot coils. As such, a single coil of rope has 16 2/3 fathoms. This can vary, of course, depending on if the coil of rope is really 100 feet, or some other amount.
We are long past the hypothesis stage, with regard to electricity, which is a very well understood phenomenon at this point. If you would like to know about the history of scientific investigation of electricity, there were a number of hypotheses, including the hypothesis that lightning is a form of electricity (which is true) and that nerve impulses are also a form of electricity (also true) and that electricity can be generated by some types of chemical reactions (also true) and that electricity can be used to make the Frankenstein monster come to life (not true).
Keeping the rest characteristics of a coil the same, increasing coil diameter the spring constant decreases.
'Electricity' is not a quantity, so it doesn'thave an 'amount'. You need to rephrase your question to make it more specific -e.g. what do you mean by 'electricity'?
Electricity is created by a rotating magnetic field captured by a coil. The flow of electrons creates a magnetic field.
heater coil is good conductor of electricity
Solenoid has a longer length compared to its diameter. The Distance between two loops in a solenoid is longer. while Coil has the bigger diameter. The distance between two loops in a coil is shorter compared to its diameter.
A coil doesn't make electricity it can however alter voltage and amperage output.
A coil has to spin in a generator to produce electricity.
heater coil is good conductor of electricity
A coil doesn't produce electrical energy, but it can store it. For a given current (amperes), the energy storage in a coil is proportional to the coil's inductance, which in turn depends on the coil's length, diameter, and number of turns. With everything else staying constant, the coil's energy storage capacity increases when the number of turns increases.
The inductance of a coil is not related in any simple way to the length of the wire or other conductor of which it is wound. The inductance is at least as heavily influenced by the diameter of the coil.
WET electricity is a means of transferring electric power without wires. A copper coil of sufficient dimension and diameter exchange an electromagnetic field to a similar coil which reveives the energy. Provided the transmitted energy is considerable the receiver coil should be able to dissipate 40 -60% of the energy transmitted by the transmitter coil at a distance up to 2 meters. The frequency both coils must operate with lies around 9 to MHz.
you have to measure the diameter of the coil and then multiply the diamter by pi