Apparent power
is the combined power value that is
obtained by allowing for the different values of current and voltage.
Essentially, the measure of apparent power is achieved by multiplying the applied
voltage to the current generated. Most electrical systems operate by the use of
apparent power.
There are a
few basic understandings about the nature of apparent
power that help to define the nature of
the power. Components of both reactive
and real power must be present in order
for apparent power to exist. That is, the load must be both
reactive and resistant in order for the flow of apparent power
to take place, and thus create a means for measuring the nature of the
generated power. In addition to the
presence of resistant and reactive loads, it is also important to determine the
watts involved in the current as well. Just as in determining the rate of any
complex power, knowing the watt value is
key to understanding the nature of apparent
power.
In the actual
calculation of apparent power, the number of volts is multiplied by
the number of amps. Results of the calculation are presented in terms of
volt-amperes reactive and real power.
This simple multiplication of voltage and current makes it possible to ensure
that the flow of apparent power is sufficient to operate devices
designed for a given level of power, as
well as ensure the flow of apparent power can be handled by the components within
the device.
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