active components can have gain, passive can't.
a switch and a capacitor which is connected in series with the switch
Resistors, capacitors, inductors, diodes are all passive components.
Electronic have two type of components Active components and Passive components. Active components are those which increase the power of a signal and must be supplied with the signal and a source of power. Passive components do not increase the power of a signal. Active components are Bipolar transistor, Operational amplifier, field effect transistors etc and Passive components are semiconductor, resistor, capacitor, inductor etc
Most components of grape juice are polar (acids, most vitamins, sugars) but some are not: essence oil, esters
Because salts and water are polar compounds; oil components are not polar compounds.
ACTIVE COMPONENTS The components which produce the energy in the form of current or voltage are called as active components. Example:transistors etc,. PASSIVE COMPONENTS The components which stores the energy in the form of current or voltage are called as passive components. example:inductors,resistors,capacitors etc,. Mrityunjay k pandey radix computer college panna naka satna mob:-09926026201
There are thousands of glues with many active components. -Name your glue-
according to like dissolve like principle non-polar component dissolved by non polar substance like benzene
The 7 components of the general circulation pattern in the atmosphere are: the Intertropical Convergence Zone (ITCZ), the subtropical highs, the subpolar lows, the polar highs, the polar easterlies, the westerly winds, and the jet streams.
Pasta sauce is typically considered a polar substance. This is because it often contains water as a primary ingredient, along with other polar components like tomatoes, garlic, and herbs. The presence of these polar molecules allows pasta sauce to dissolve in water and interact with other polar substances. Nonpolar ingredients, such as oils, may be present but are generally mixed with the polar components.
The polar component of surface energy arises from interactions like hydrogen bonding, while the non-polar component results from van der Waals forces. Polar surfaces favor interactions with polar molecules, while non-polar surfaces prefer interactions with non-polar molecules. Balancing these components affects properties like wetting and adhesion.