The higher the power of the appliance, the more work the current does The greater the power of the appliance, the faster the current does work, right?

The higher the power of the appliance, the more work the current does The greater the power of the appliance, the faster the current does work, right?

The higher the power of an electrical appliance, the more work the current does. This is true in principle, but there are differences in the details
From the point of view of power supply, "the higher the power, the more work the current does" is completely correct. This may even include the different phases of AC voltage and current (invalid heat loss)
In addition to line loss (heating), the reactive power of inductive and capacitive electrical appliances is also in invalid consumption. At this time, non purpose electricity is invalid (or invalid power). For example, a large electrical appliance uses a thin power cord. If the power cord is burned red, the power consumption of burning red may be greater than the power of the electrical appliance at this time
The word "power" of an electrical appliance includes time!
The higher the power of an electrical appliance, the faster the current does work. Because the conditions and purposes of using electrical appliances vary greatly, it seems that the greater the potential ability to do work

The process of using electrical appliances to consume electric energy is the process of current doing work, and it is also the process of converting electric energy into electricity______ The process of

The process of using electrical appliances to consume electric energy is the process of current doing work, and it is also the process of converting electric energy into electricity___ Other forms of energy___ The process of