Electronic Principles

inductive reactance is greater than the capacitive reactance

capacitive reactance is greater than the inductive reactance

inductive reactance is equal to the capacitive reactance

None of these

the difference between inductive and capacitive reactance is equal to the resistance

None of these

that would be attracted to the earth's north magnetic pole

that would be repelled by the south pole of another magnet

that has its molecules arranged in a random pattern

that would be attracted to the earth's south magnetic pole

Primary-cell batteries use chemical cells, whereas secondary-cell batteries use an alternative energy source, such as thermal or magnetic energy, to supplement their outputs

None of these

Primary-cell batteries can be recharged and used many times, whereas secondary-cell batteries cannot be properly recharged

Primary-cell batteries must be recharged at a much slower rate that secondary-cell batteries

Secondary-cell batteries can be recharged and used many times, whereas primary-cell batteries cannot be properly recharged

from right to left

from negative to positive

from positive to negative

None of these

from neutral to positive

None of these

Nonconducting

Reverse-biased

Forward-biased

Operating in the breakdown region

Power dissipation of a pure capacitor increases with operating frequency

Power dissipation of a pure capacitor decreases with operating frequency

There is no meaningful relationship between the power dissipation of a pure capacitor and its operating frequency

All of these

None of these