The node rule states that i=nAuE where i is electron current, n is electron density, A is cross-sectional area of wire used, u is electron mobility, and E is Electric field inside the wire.
The Loop Rule also states the potential difference around a closes circuit must be zero. That is deltaV=0 and therefore a circuit with one battery(2 volts) and one light bulb( with an electric field and a certain length filament) will equal this 2V-EL=0 or -2V+EL=0
The current flowing in an electrical circuit.
The definition of Atlanta is: " The capital and largest city of the state of Georgia in the US, in the northwest central part of the state"
The definition of each element state is... Water Fire Earth and Air. each of these elements we have in earth.
A state of affairs is the current set of circumstances, so a regrettable state of affairs would be disappointment with the current set of circumstances.
a state of equilibrium or equipoise; equal distribution of weight, amount, etc.
Not anemic
A stable state that remains steady and unchanging.
A resistor or an inductor. The inductor limits transient current, not steady state current.
-- If the excitation source is AC, then the steady state of the circuit depends on the voltage, frequency, and waveform (harmonic content) of the source. -- If the excitation source is DC, then the steady state current in a series circuit is zero. DC doesn't pass through a capacitor.
No, the current has to change for a voltage to be induced in the transformer.
Watts = Current x Voltage x Power Factor If you are talking about 120 VAC and a pure resistive load (Where Power Factor = 1) then the steady state current is about 8.3 Amps. So you are okay. If you had a conductive load with a Power Factor of .5 then the current would double. The steady state current should be no more than 80% of the breaker rating. Therefore, the steady state current should be less than or equal to 16 amps.
No. A constant DC current of sufficient magnitude induces smoke in a transformer.
Steady state gain,
Steady-state heat transfer does not change with time - because - that is the definition of steady-state, i.e. "steady-state" means "does not change with time".As for why heat transfer might be steady state - that would be a consequence of the driving forces and physical conditions remaining constant with time. For example:Heat source remains the same temperatureHeat sink remains the same temperatureHeat source remain in the same position relative to each other, both in terms of distance and orientation.Surface areas of heat source and heat sink remain the same.Any intervening medium remains the same composition, temperature, density, and pressure.If convection is occurring, flow rates remain constant.If radiative heat transfer is occurring, any intervening medium has constant transmissivity, reflectivity, and absorbtion.If radiative heat transfer is occurring, radiating and absorbing surfaces maintain constant radiative and absorbing properties.There are a few other factors that can influence steady-state heat transfer, but these are a good description of the most important ones.
(a) A current flowing in one direction only; -- distinguished from alternating current. When steady and not pulsating a direct current is often called a continuous current. (b) A direct induced current, or momentary current of the same direction as the inducing current, produced by stopping or removing the latter; also, a similar current produced by removal of a magnet.
Actually Inductor oppose the change of current in the circuit..... Acts like a short circuit in steady state condition....
steady state is a condition when the temperature neither increases nor decreases.....