It seems that the fundamental relationship between electric and magnetic forces is explained by the Special Theory of Relativity. If you are really interested - and know a lot of advanced math (more than me, certainly...) - you can read the Wikipedia article "Classical electromagnetism and special relativity", or search for similar sources. Otherwise, you'll just have to accept that it is so, and use the equations correctly.
At the present time, the price of natural gas is significantly lower than the price of electricity.
When you fold aluminum foil into a small piece, it can be used to charge a dead battery. The electrical charge is present when it is folded up.
Distilled water, if properly distilled, will not contain any ions, so it should not conduct an electric current. Water from a well will undoubtedly have many minerals and metals and salts, etc. in it because these will have been leached out of the ground. The ions that are present in well water will support the conduction of an electric current.
Factors that affect acceleration:Weight - (relating inertia, the loaded kinetic force stored and carried in the object mass)Kilowatts (kinetic energy) - (kinetic power supplied propulsion force)External forces such asGravitational - attraction (if relevent)Magnetic - drag (upon a substance that can be magnetically attracted if present as part or is the accelerated object)Drag - (gaseous or atmospheric resistances)Tribad - (running surface/track/moving parts friction)
Current travels through free electrons (These are present in most transitional metals and some allotropes of carbon (I.E. Graphite)), when there is a break in a circuit (No metal present) the current cannot travel the gap, unless it is of sufficient energy to "arc" through the air to connect the gap. However this will only occur if completing the circuit is the easiest and quickest way to ground itself (Hence why people get electric shocks, we, being made up of mostly water, conduct electricity better than air, so the current passes though us to ground).
when a pulse of excess electrons and excess holes are created at a particular point in a semiconductor an induced internal electric field will be present between them. This internal electric field will cause the negatively charged electron and positively charged hole to drift or diffuse together with a single effective mobility or diffusion coefficient.
induced enzyme
No, electric potential can exist even if there is no charge present at a location. Electric potential is a property of space that describes the amount of potential energy per unit charge at a point in an electric field.
An electric field is present near a moving electric charge. The electric field is a force field that surrounds an electric charge and exerts a force on other charges in its vicinity.
An electric motor has no cylinders.
electric force
London dispersion forces (instananeous dipole - induced dipole interactions)
No no charges are present .
Electric field is present whenever there are electric charges nearby. This could be due to a stationary charge creating an electric field that spans throughout space, or a changing magnetic field inducing an electric field, as described by Faraday's law of electromagnetic induction.
Where electric current is present, electrons are flowing from one place to another. Where static electricity is present, electrons are just sitting there in a pile.
Harmonics is electric current or voltages that are part of the power system as a result of nonlinear electric loads. If there is no load and a harmonic is present it can present because of a rectifier in the system.
Bacteria is always present in the mouth.