Capacitor, Inductor and Resistor /one difference each. #science #physics #electronics #shorts

The main differences between a carbon resistor, a capacitor, and an inductor lie in their function, construction, and the way they interact with electric circuits. ‪@inertialclasses‬ 1. Carbon Resistor: Function: A resistor limits or regulates the flow of electric current in a circuit. It converts electrical energy into heat. Construction: Made of a mixture of carbon and a binding material, with specific resistance properties determined by the carbon-to-binder ratio. Key Property: Resistance, measured in ohms (Ω). Behavior: Dissipates energy and reduces current flow. 2. Capacitor: Function: A capacitor stores and releases electrical energy in the form of an electric field. Construction: Composed of two conductive plates separated by an insulating material (dielectric). Key Property: Capacitance, measured in farads (F). Behavior: Blocks direct current (DC) while allowing alternating current (AC) to pass, depending on frequency. 3. Inductor: Function: An inductor stores energy in the form of a magnetic field when current flows through it. Construction: Typically consists of a coil of wire, often wound around a core material (air, ferrite, etc.). Key Property: Inductance, measured in henries (H). Behavior: Opposes changes in current and filters signals based on frequency. Summary: Carbon Resistor: Controls current flow (energy dissipator). Capacitor: Stores energy as an electric field (energy storer/releaser for voltage). Inductor: Stores energy as a magnetic field (energy storer/releaser for current). Each component serves a unique purpose in electronic circuits and is chosen based on the specific needs of the application. #ElectronicsComponents #Capacitor #Inductor #CarbonResistor #ResistorsAndCapacitors #InductorsInElectronics #PassiveComponents #ElectricalEngineering #CircuitDesign #ElectronicsBasics #CapacitorDesign #InductorDesign #ResistorDesign #Capacitance #Inductance #OhmsLaw #ElectronicsProjects #CircuitComponents #ElectronicCircuits #CircuitBoardDesign #PCBDesign #AnalogElectronics #DigitalElectronics #PowerElectronics #ElectronicEngineering #LearnElectronics #CircuitAnalysis #ElectronicsDIY #ElectricCircuits #ElectronicsLearning #ResistorColorCode #CapacitorCharging #InductorCoils #ElectronicsTutorial #EngineeringEducation #DIYElectronics #ElectricalComponents #ElectronicsLab #SMDResistor #CircuitSimulations #PassiveCircuits #ResistorCapacitorInductor #ElectronicParts #ResistorBasics #CapacitorBasics #InductorBasics #Circuits101 #ElectricalDIY #BasicElectronics #ElectronicsTesting #ElectronicTools #ElectronicsRepair #ResistorNetworks #CapacitorNetworks #InductorApplications #ElectronicsHobbyist #ElectricalHobbyist #DIYProjectsElectronics #ResistorsInCircuits #CapacitorInCircuits #InductorInCircuits #ElectronicsCommunity #ElectronicsEducation #CircuitBuilding #PCBAssembly #PassiveCircuitDesign #ElectronicTestingTools #LearnElectricalEngineering #ElectronicComponentsGuide #ElectronicsEngineeringProjects #InductorWinding #CapacitorChargingDischarging #ResistorApplications #ElectronicsDiagrams #ElectricalComponentsGuide #CircuitBoardComponents #ElectronicsFun #DIYElectronicsProjects #EngineeringProjects #ElectronicHacks #ElectronicsInnovation #CapacitorsExplained #InductorsExplained #ResistorsExplained #ElectronicCircuitsGuide #CircuitsExplained #ElectricalDesign #ElectronicsEngineeringTips #PassiveCircuitComponents #ElectronicComponentTutorial #ElectricalScience #CircuitTheory #ElectricalBasics #ElectronicsForBeginners #LearnCircuits #CircuitEngineering #ElectronicsKnowledge #Inertialclasses #science #physics#shorts #electricity #electromagnetism #optics #class12 #ton618 #cbseboard