For AC system speed of generator will be decreased and then frequency decrease, if there is no trip the motor load will be automaticaly reduced as Load Power = torque x speed and speed of motor vary acc to frequency. Finally the motor will be run at new lower speed that load = power generation. The other effect is voltage in the system will be decreased and result of lower load consumption
output power/Rated power
To supply the reactive power demand of load and to regulate of output volage at the grid
change in load voltage or output voltage changes in load current
A: A power supply when designed it will have some nominal criteria and also some maximum output power available which reflect to the peak load that it can stand without burning up
For a motor's output power to equal its input power, the motor's efficiency must be 100%. As no machine, particularly a rotating machine, can possibly achieve 100% efficiency, there is no condition under which its output power can ever match its input power.
A no load voltage means the power level that is giving from the output pins power converter. This is when 0% load is given.
it increases because increasing load means more output power, more output power means more current
output power/Rated power
dun know
To supply the reactive power demand of load and to regulate of output volage at the grid
change in load voltage or output voltage changes in load current
If a simple machine provide an increased output force, then the the distance from the load to the pivot needs to be increased.
A: The signal output will not change it is just that the efficiency of power transfer is effected to less
Take the power output of the generator and divide it by the voltage output. I = W/E.
A: A power supply when designed it will have some nominal criteria and also some maximum output power available which reflect to the peak load that it can stand without burning up
The energy delivered by a battery would depend on-- the battery's voltage-- the resistance of the load connected across its output terminals-- the length of the time the load is connectedThe power delivered by the battery is [ (voltage)2 divided by (load resistance) ].The total energy delivered by the battery is [ (power) multiplied by (time the load is connected) ].
The output of a radio transmitter is ac power at a radio frequency, designed to run into a load with a specified resistance, often 50 ohms.