mugals
Rm= 8Mp/L
infinite
You have to imagine the internal resistance as being in parallel with any load you connect. You get the maximum possible current when the load is zero. In this case, just apply Ohm's Law. That is, divide the voltage by the internal resistance.
Answer Pmax=E^2/(4xRs) The maximum power is transferred when the load impedance is the complex conjugate of the source impedance. For a dc circuit or a purely resistive circuit, the load resistance equals the source resistance.
The resulting maximum current is limited by the resistance of the inductor. As the current increases from zero to that maximum value, its expanding magnetic field induces a voltage into the inductor which opposes the rise in that current. So, instead of reaching its maximum value instantaneously, it takes some time -determined by the equation:time to maximum current = 5 L / R (seconds)where L = inductance of inductor in henrys, and R = resistance of inductor in ohms.
The maximum resistance across a switch should be infinite.
colonists were outraged because they saw it as a trick to undermine their principled resistance to the tax
did the British began stationing regular British troops at the center of colonial resistance: Philadelphia
The maximum voltage formula for a circuit is V I R, where V is the voltage, I is the current, and R is the resistance.
when source resistance and load resistance are equal maximum power is transfered
volts divided by resistance equals maximum amperage (current)
As the British government passed new tax laws, resistance by the colonists grew.
Yes, the Maximum Power Theorem has been verified experimentally in electrical circuits. By adjusting the load resistance in a circuit, the theorem predicts the maximum power transfer to the load when the load resistance matches the source resistance. This has been demonstrated in practical experiments.
Did you mean "maximum RESISTANCE" or "maximum VALUE"? If the former, then, you have a ZERO reading, meaning there is high resistance, and no electrical connectivity. If the latter, you have a ONE (or 100%) reading, meaning there is NO resistance, or absolute electrical connectivity. As an analogy, if you turn on a plugged-in, working, lamp, then it has NO resistance, such that power flows easily through the cord; if it didn't turn on, then there IS resistance, such that no power flows, possibly due to broken wire, bad switch, burned-out bulb, or blown fuse.
Rm= 8Mp/L
infinite
Perhaps the most famous slogan that came out of the American War for Independence was the patriotic cry of Patrick Henry, 'Give me liberty or give me death!' Although not all colonists who fought the British were so zealous, this slogan does summarize to a great extent the basis for much of the colonial resistance to Great Britain's heavy-handed rule.