Version 1 (modified by 9 years ago) ( diff ) | ,
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- Coulomb's Law states that 'attractive' force between two charges is
where
at least in air
A negative 'attractive' force is a repulsive force which is expected for like charges
2.) The force on a charge in an electric field is
3.)
(Also for what it is worth, 20 gauge wire has a cross sectional area of
)4.) Energy = power x time
Cost = energy x rate
5.) Power = current x voltage
The devices are in parallel, so the voltage drop across each device is 120 V
Voltage = Current x Resistance
6.)
Since magnetic force is always perpendicular to velocity, it is always perpendicular to displacement so
= 0It also does not increase the speed - just changes the direction, so the kinetic energy of the particle remains unchanged - so there is no work done on the particle.
7.)
If you integrate the magnetic field around a loop, it equals the enclosed current times a constant…
The field around a wire is circular and has constant strength, so the integral is just
so we have
so
8.) For a solenoid, we can use
solving for
gives
9.) A simple generator uses a gasoline engine to rotate magnets by coils of wire inducing a current in the wire. This induced current creates a counter magnetic field which provides the resistance to the gas engine.
10.) An electric motor usually produces an alternating current in a coil of wire within a constant magnetic field that causes a force on the coil of wire that drives the motor. A generator starts with another form of engine (wind, gasoline, thermal) and uses that energy to rotate magnets by coils of wire to induce currents.