Common Ohm (Ω) Terminology – SolveForce Cloud Computing & Telecommunications

AC (Alternating Current): Electric current that periodically reverses direction.
Admittance (Y): The reciprocal of impedance, measured in siemens (S).
Bullet Point List All Ohm: Terminology and Related Definitions.
Capacitance (C): The ability of a material to store electrical charge.
Conductance (G): The reciprocal of resistance, measured in siemens (S).
Current (I): The flow of electric charge.
DC (Direct Current): Electric current that flows in only one direction.
Diode: A two-terminal electronic device that allows current to flow in only one direction.
Electric arc: A luminous discharge of electric current through a gas.
Electric capacitance (C): The ability of a material to store electrical charge.
Electric charge (q): A property of matter that gives rise to electric force.
Electric charge density (ρ): The amount of electric charge per unit volume.
Electric circuit actuation: The process of applying a force or motion to an electric circuit to achieve a desired output.
Electric circuit analysis software: Computer programs used to analyze and simulate electric circuits.
Electric circuit analysis: The process of determining the voltage and current at various points in an electric circuit.
Electric circuit authentication: The process of verifying the identity of an electric circuit or its components.
Electric circuit automation: The use of electronic devices or software to control or regulate the behavior of an electric circuit.
Electric circuit certification: The process of testing and verifying that an electric circuit meets the relevant safety and performance standards.
Electric circuit compliance: The adherence to relevant safety and performance standards and regulations.
Electric circuit components: The individual parts that make up an electric circuit, such as resistors, capacitors, and inductors.
Electric circuit control system: A system that uses control signals or feedback to regulate the behavior of an electric circuit.
Electric circuit control: The process of regulating the behavior of an electric circuit through the use of control signals or feedback.
Electric circuit cost optimization: The process of reducing the cost of an electric circuit while maintaining or improving its performance.
Electric circuit customization: The process of designing and building an electric circuit to meet specific requirements and specifications.
Electric circuit debugging: The process of identifying and resolving errors or bugs in an electric circuit.
Electric circuit design software: Computer programs used to design and layout electric circuits.
Electric circuit design: The process of creating and building an electric circuit to meet specific requirements and specifications.
Electric circuit diagnosis: The process of identifying and determining the cause of a problem in an electric circuit.
Electric circuit education: The teaching of electric circuit theory and practice at the academic level.
Electric circuit encryption: The use of mathematical algorithms to encode and protect the information in an electric circuit.
Electric circuit energy efficiency: The ability of an electric circuit to perform its intended function while consuming a minimal amount of energy.
Electric circuit environmental impact: The effects of an electric circuit on the environment, such as energy consumption and the disposal of materials.
Electric circuit fabrication: The process of manufacturing an electric circuit, including the etching of circuit patterns onto a substrate, the assembly of components, and the soldering of connections.
Electric circuit fault diagnosis: The process of identifying and locating faults in an electric circuit.
Electric circuit fault isolation: The process of identifying and isolating the component or section of an electric circuit that is causing a fault.
Electric circuit fault tolerance: The ability of an electric circuit to continue functioning in the presence of a fault or error.
Electric circuit feedback control: A type of control system that uses feedback from the output of an electric circuit to adjust its input.
Electric circuit flexibility: The ability of an electric circuit to adapt to different tasks or environments.
Electric circuit history: The study of the evolution and development of electric circuits and their applications over time.
Electric circuit industry: The sector of the economy that is involved in the design, manufacture, and sale of electric circuits and devices.
Electric circuit innovation: The process of creating new or improved electric circuits or technologies.
Electric circuit integration: The process of combining multiple electric circuits or components into a single device or system.
Electric circuit intellectual property (IP): The legal rights associated with an electric circuit, including patents, trademarks, and copyrights.
Electric circuit life cycle: The stages of an electric circuit from its initial design and development, through its manufacture, use, and maintenance, to its eventual disposal or recycling.
Electric circuit maintenance: The process of keeping an electric circuit in good working condition through regular inspection, cleaning, and repair.
Electric circuit measurement: The process of determining the electrical properties of an electric circuit such as voltage, current, resistance, capacitance and inductance.
Electric circuit miniaturization: The process of reducing the size and weight of an electric circuit while maintaining or improving its performance.
Electric circuit modeling: The process of creating a mathematical representation of an electric circuit to predict its behavior.
Electric circuit modularity: The ability of an electric circuit to be divided into smaller, interchangeable units.
Electric circuit monitoring: The process of measuring and recording the performance of an electric circuit.
Electric circuit noise reduction: The process of minimizing or eliminating unwanted electrical noise in an electric circuit.
Electric circuit noise: The unwanted or unpredictable variations in the electrical signals in an electric circuit.
Electric circuit optimization: The process of adjusting the parameters of an electric circuit to improve its performance.
Electric circuit packaging: The process of enclosing an electric circuit in a protective housing or package.
Electric circuit patent: A legal document that grants an inventor exclusive rights to make, use, and sell an invention.
Electric circuit performance optimization: The process of adjusting the parameters of an electric circuit to improve its performance.
Electric circuit prognosis: The process of predicting the future behavior or performance of an electric circuit.
Electric circuit protection: The use of devices such as fuses and circuit breakers to protect an electric circuit from damage due to overcurrent or overvoltage.
Electric circuit prototyping: The process of building a model or early version of an electric circuit to test and evaluate its design.
Electric circuit reconfigurability: The ability of an electric circuit to be easily reconfigured or modified to handle different tasks or requirements.
Electric circuit recycling: The process of recovering materials and components from used electric circuits for re-use.
Electric circuit reliability analysis: The process of evaluating the reliability of an electric circuit, including the probability of failure and the expected lifetime of the circuit.
Electric circuit reliability: The ability of an electric circuit to perform consistently and without failure over a period of time.
Electric circuit repairability: The ability of an electric circuit to be easily repaired or maintained.
Electric circuit robustness: The ability of an electric circuit to maintain its performance under varying conditions or in the presence of errors or faults.
Electric circuit safety: The measures taken to prevent electric shocks and other hazards associated with electricity.
Electric circuit scalability: The ability of an electric circuit to be easily extended or modified to handle larger or more complex tasks.
Electric circuit security: The measures taken to protect an electric circuit from unauthorized access, manipulation, or damage.
Electric circuit sensing: The process of measuring or detecting the state or properties of an electric circuit.
Electric circuit signal amplification: The process of increasing the amplitude of a signal.
Electric circuit signal conditioning: The process of preparing a signal for further processing or analysis.
Electric circuit signal demodulation: The process of extracting information from a modulated signal.
Electric circuit signal demultiplexing: The process of separating a multiplexed signal into its original components.
Electric circuit signal distribution: The process of distributing electrical signals to multiple locations.
Electric circuit signal filtering: The process of removing unwanted frequencies or components from a signal.
Electric circuit signal integrity: The preservation of the quality and accuracy of electrical signals over a distance or through various components.
Electric circuit signal loss: The reduction in the amplitude or quality of electrical signals as they pass through a circuit or over a distance.
Electric circuit signal modulation: The process of encoding information on a signal.
Electric circuit signal multiplexing: The process of combining multiple signals into a single signal.
Electric circuit signal processing algorithms: The mathematical procedures used to process and analyze electrical signals in an electric circuit.
Electric circuit signal processing applications: The various domains in which electrical signal processing is applied, such as telecommunications, audio processing, image processing, and control systems.
Electric circuit signal processing authentication: The process of verifying the identity of a signal processing system or its components.
Electric circuit signal processing certification: The process of testing and verifying that a signal processing system meets the relevant safety and performance standards.
Electric circuit signal processing compliance: The adherence to relevant safety and performance standards and regulations for signal processing systems.
Electric circuit signal processing cost optimization: The process of reducing the cost of a signal processing system while maintaining or improving its performance.
Electric circuit signal processing customization: The process of designing and building a signal processing system to meet specific requirements and specifications.
Electric circuit signal processing data analysis: The process of extracting useful information from data.
Electric circuit signal processing data backup: The process of creating a copy of data to protect against data loss.
Electric circuit signal processing data compression: The process of reducing the amount of data required to represent a signal processing system by removing redundant or irrelevant information.
Electric circuit signal processing data encryption: The process of converting plaintext data into an encoded format that can only be accessed by authorized parties.
Electric circuit signal processing data governance assessment: The process of evaluating data governance practices and identifying areas for improvement.
Electric circuit signal processing data governance audit: The process of reviewing and assessing data governance practices to ensure compliance and identify areas for improvement.
Electric circuit signal processing data governance automation: The use of technology to automate data governance tasks and processes.
Electric circuit signal processing data governance best practices: The recommended techniques and approaches for managing and controlling access to data.
Electric circuit signal processing data governance compliance: The adherence to data governance policies and regulations.
Electric circuit signal processing data governance continuity: The ability to maintain the management and control of data despite disruptions or disasters.
Electric circuit signal processing data governance controls: The mechanisms and processes that are put in place to ensure that data governance policies and procedures are followed.
Electric circuit signal processing data governance culture: The values, beliefs, and practices that shape an organization’s approach to managing and controlling data.
Electric circuit signal processing data governance disaster recovery: The process of restoring data governance capabilities after a disruption or disaster.
Electric circuit signal processing data governance documentation: The records and documents that detail data governance policies, procedures, and performance.
Electric circuit signal processing data governance framework: The set of guidelines, policies, and procedures used to manage and control access to data.
Electric circuit signal processing data governance governance board: The group or committee responsible for overseeing and guiding data governance within an organization.
Electric circuit signal processing data governance governance charter: The document outlining the purpose, scope, and responsibilities of the data governance board.
Electric circuit signal processing data governance governance framework: The set of guidelines, policies, and procedures used to govern and manage data within an organization.
Electric circuit signal processing data governance governance model: The structure and approach for governing and managing data within an organization.
Electric circuit signal processing data governance improvement: The process of making changes to data governance practices to increase effectiveness and efficiency.
Electric circuit signal processing data governance incident management: The process of identifying, responding to, and resolving incidents related to data governance.
Electric circuit signal processing data governance life cycle: The stages of data governance from its initial creation, through its maintenance and use, to its eventual disposal or archiving.
Electric circuit signal processing data governance maturity: The level of development and effectiveness of an organization’s data governance practices.
Electric circuit signal processing data governance metrics: The measurements and indicators used to track and evaluate data governance performance.
Electric circuit signal processing data governance monitoring: The process of observing and tracking data governance practices to ensure compliance and identify issues.
Electric circuit signal processing data governance policies: The rules and guidelines that govern the management and control of data.
Electric circuit signal processing data governance procedures: The step-by-step instructions that detail how to manage and control data.
Electric circuit signal processing data governance process mapping: The visualization of data governance processes and tasks to identify areas for improvement.
Electric circuit signal processing data governance program: The overall initiative and efforts to manage and control data within an organization.
Electric circuit signal processing data governance reporting: The process of providing information on data governance practices and performance to stakeholders.
Electric circuit signal processing data governance risk management: The process of identifying, assessing, and mitigating risks associated with data governance.
Electric circuit signal processing data governance roles and responsibilities: The specific duties and tasks assigned to individuals or teams in the management and control of data.
Electric circuit signal processing data governance scorecard: The tool used to track and evaluate the performance of data governance practices.
Electric circuit signal processing data governance software: The computer programs used to manage and control access to data.
Electric circuit signal processing data governance standards: Technical specifications and guidelines that govern the management and control of data.
Electric circuit signal processing data governance strategy: The plan and approach for managing and controlling data within an organization.
Electric circuit signal processing data governance training: The education and training provided to individuals and teams on data governance policies, procedures, and best practices.
Electric circuit signal processing data governance workflow: The sequence of steps and tasks involved in managing and controlling data.
Electric circuit signal processing data governance: The process of managing and controlling access to data, including policies, procedures, and guidelines.
Electric circuit signal processing data governance: The process of managing and controlling access to data.
Electric circuit signal processing data integrity: The measure of how accurate and complete data is.
Electric circuit signal processing data management: The process of acquiring, storing, maintaining, and using data.
Electric circuit signal processing data mining: The process of discovering patterns and trends in data.
Electric circuit signal processing data privacy: The measures taken to protect the personal information and data of individuals from unauthorized access or use.
Electric circuit signal processing data quality: The measure of how fit for purpose data is for its intended use.
Electric circuit signal processing data recovery: The process of restoring data that has been lost or corrupted.
Electric circuit signal processing data security: The process of protecting data from unauthorized access, use, disclosure, disruption, modification, perusal, inspection, recording or destruction.
Electric circuit signal processing data storage: The process of saving data in a physical or digital format for later retrieval.
Electric circuit signal processing data transmission: The process of sending data over a communication channel, such as a wired or wireless network.
Electric circuit signal processing data visualization: The process of creating visual representations of data to aid in understanding and interpretation.
Electric circuit signal processing data warehousing: The process of collecting and storing large amounts of data for use in data analysis and reporting.
Electric circuit signal processing debug: The process of identifying and resolving errors or bugs in a signal processing system.
Electric circuit signal processing design: The process of creating and building a system for processing and analyzing electrical signals.
Electric circuit signal processing education: The teaching of signal processing theory and practice at the academic level.
Electric circuit signal processing encryption: The use of mathematical algorithms to encode and protect the information in a signal processing system.
Electric circuit signal processing energy efficiency: The ability of a signal processing system to perform its intended function while consuming a minimal amount of energy.
Electric circuit signal processing environmental impact: The effects of a signal processing system on the environment, such as energy consumption and the disposal of materials.
Electric circuit signal processing fault diagnosis: The process of identifying and locating faults in a signal processing system.
Electric circuit signal processing fault isolation: The process of identifying and isolating the component or section of a signal processing system that is causing a fault.
Electric circuit signal processing fault tolerance: The ability of a signal processing system to continue functioning in the presence of a fault or error.
Electric circuit signal processing flexibility: The ability of a signal processing system to adapt to different tasks or environments.
Electric circuit signal processing hardware: The physical components of an electric circuit used to process and analyze electrical signals.
Electric circuit signal processing history: The study of the evolution and development of signal processing systems and their applications over time.
Electric circuit signal processing industry: The sector of the economy that is involved in the design, manufacture, and sale of signal processing systems and devices.
Electric circuit signal processing innovation: The process of creating new or improved signal processing systems or technologies.
Electric circuit signal processing integration: The process of combining multiple signal processing systems or components into a single device or system.
Electric circuit signal processing intellectual property (IP): The legal rights associated with a signal processing system, including patents, trademarks, and copyrights.
Electric circuit signal processing life cycle: The stages of a signal processing system from its initial design and development, through its manufacture, use, and maintenance, to its eventual disposal or recycling.
Electric circuit signal processing maintenance: The process of keeping a signal processing system in good working condition through regular inspection, cleaning, and repair.
Electric circuit signal processing miniaturization: The process of reducing the size and weight of a signal processing system while maintaining or improving its performance.
Electric circuit signal processing modularity: The ability of a signal processing system to be divided into smaller, interchangeable units.
Electric circuit signal processing optimization: The process of adjusting the parameters of a signal processing system to improve its performance.
Electric circuit signal processing optimization: The process of improving the performance of a signal processing system by adjusting its parameters and settings.
Electric circuit signal processing patent: A legal document that grants an inventor exclusive rights to make, use, and sell a signal processing system invention.
Electric circuit signal processing performance optimization: The process of adjusting the parameters of a signal processing system to improve its performance.
Electric circuit signal processing reconfigurability: The ability of a signal processing system to be easily reconfigured or modified to handle different tasks or requirements.
Electric circuit signal processing recycling: The process of recovering materials and components from used signal processing systems for re-use.
Electric circuit signal processing reliability analysis: The process of evaluating the reliability of a signal processing system, including the probability of failure and the expected lifetime of the system.
Electric circuit signal processing reliability: The ability of a signal processing system to perform consistently and without failure over a period of time.
Electric circuit signal processing repairability: The ability of a signal processing system to be easily repaired or maintained.
Electric circuit signal processing robustness: The ability of a signal processing system to maintain its performance under varying conditions or in the presence of errors or faults.
Electric circuit signal processing safety: The measures taken to prevent hazards associated with the use of a signal processing system.
Electric circuit signal processing scalability: The ability of a signal processing system to be easily extended or modified to handle larger or more complex tasks.
Electric circuit signal processing security: The measures taken to protect a signal processing system from unauthorized access, manipulation, or damage.
Electric circuit signal processing signal bandwidth: The range of frequencies present in a signal.
Electric circuit signal processing signal distortion: The alteration of a signal as it passes through a circuit or system.
Electric circuit signal processing signal energy: The integral of the signal power over time.
Electric circuit signal processing signal power: The amount of energy present in a signal.
Electric circuit signal processing signal processing algorithms: The mathematical procedures used to process and analyze electrical signals in an electric circuit.
Electric circuit signal processing signal processing design: The process of creating and building a system for processing and analyzing electrical signals.
Electric circuit signal processing signal processing hardware: The physical components of an electric circuit used to process and analyze electrical signals.
Electric circuit signal processing signal processing optimization: The process of adjusting the parameters of a signal processing system to improve its performance.
Electric circuit signal processing signal processing software: The computer programs used to process and analyze electrical signals in an electric circuit.
Electric circuit signal processing signal processing system: A system that consists of hardware, software and algorithms used to process and analyze electrical signals.
Electric circuit signal processing signal processing techniques: The methods used to process and analyze electrical signals in an electric circuit, such as filtering, Fourier analysis, and compression.
Electric circuit signal processing signal processing validation: The process of verifying that a signal processing system meets its design specifications and requirements.
Electric circuit signal processing signal quality: The measure of how well a signal meets its intended purpose.
Electric circuit signal processing signal spectral density: A measure of the distribution of power in a signal as a function of frequency.
Electric circuit signal processing signal to noise ratio (SNR): The ratio of the amplitude of a desired signal to the amplitude of unwanted noise in an electric circuit.
Electric circuit signal processing software: The computer programs used to process and analyze electrical signals in an electric circuit.
Electric circuit signal processing standards: The technical specifications and guidelines that govern the design, construction, and performance of signal processing systems.
Electric circuit signal processing sustainability: The ability of a signal processing system to meet the needs of the present without compromising the ability of future generations to meet their own needs.
Electric circuit signal processing system: A system that consists of hardware, software and algorithms used to process and analyze electrical signals.
Electric circuit signal processing techniques: The methods used to process and analyze electrical signals in an electric circuit.
Electric circuit signal processing traceability: The ability to trace the flow of signals and data through a signal processing system.
Electric circuit signal processing upgradeability: The ability of a signal processing system to be easily upgraded or modified to improve its performance.
Electric circuit signal processing validation: The process of verifying that a signal processing system meets its design specifications and requirements.
Electric circuit signal processing verification: The process of comparing the actual behavior of a signal processing system to its expected behavior.
Electric circuit signal processing: The manipulation or transformation of electrical signals in an electric circuit.
Electric circuit signal routing: The process of directing electrical signals to their intended destinations.
Electric circuit signal to noise ratio: The ratio of the amplitude of a desired signal to the amplitude of unwanted noise in an electric circuit.
Electric circuit signal transmission: The process of transmitting electrical signals over a distance.
Electric circuit simulation software: Computer programs used to model and simulate the behavior of electric circuits.
Electric circuit simulation: The process of creating a mathematical model of an electric circuit to predict its behavior.
Electric circuit simulation: The process of using computer software to model and analyze electric circuits.
Electric circuit standards: The technical specifications and guidelines that govern the design, construction, and performance of electric circuits.
Electric circuit sustainability: The ability of an electric circuit to meet the needs of the present without compromising the ability of future generations to meet their own needs.
Electric circuit testing and measurement: The process of measuring and evaluating the performance of an electric circuit.
Electric circuit testing: The process of measuring the performance of an electric circuit to ensure that it meets the desired specifications.
Electric circuit theorems: The set of mathematical principles used to analyze electric circuits.
Electric circuit topologies: The different ways that electric circuits can be connected, such as series and parallel.
Electric circuit tracing: The process of following the flow of current or signals through an electric circuit.
Electric circuit troubleshooting: The process of identifying and resolving problems in an electric circuit.
Electric circuit upgradability: The ability of an electric circuit to be easily upgraded or modified to improve its performance.
Electric circuit upgradeability: The ability of an electric circuit to be easily upgraded or modified to improve its performance.
Electric circuit validation: The process of verifying that an electric circuit meets its design specifications and requirements.
Electric circuit verification: The process of comparing the actual behavior of an electric circuit to its expected behavior.
Electric circuit: A closed loop through which electric current can flow.
Electric conductance (G): The reciprocal of resistance, measured in siemens (S).
Electric conductivity (σ): The ability of a material to allow electric current to flow through it.
Electric current density (J): The flow of electric charge per unit area.
Electric dipole moment (p): A measure of the separation of charge in a system of charges.
Electric discharge: The release of electric charge from a material.
Electric displacement (D): The vector field that is defined as the flux density of the electric field through a closed surface.
Electric displacement field (D): The field that describes the density of electric flux in a material.
Electric energy density (U): The energy stored in an electric field per unit volume.
Electric field (E): The force per unit charge on an object in an electric field.
Electric field lines: The lines that are used to represent the direction and strength of an electric field.
Electric field strength (E): The force per unit charge on an object in an electric field.
Electric flux (Φ): The amount of electric field passing through a given surface.
Electric flux density (B): The amount of magnetic field passing through a given surface.
Electric generator: A device that converts mechanical energy into electrical energy.
Electric inductance (L): The ability of a material to store energy in a magnetic field.
Electric insulator: A material that does not allow electric current to flow through it easily.
Electric motor: A device that converts electrical energy into mechanical energy.
Electric permeability (μ): The measure of the ability of a material to store magnetic energy in a magnetic field.
Electric permittivity (ε): The measure of the ability of a material to store electric energy in an electric field.
Electric polarization (P): The alignment of the electric dipole moments in a material in response to an applied electric field.
Electric potential (V): The electric potential energy per unit charge.
Electric potential energy (U): The energy stored in an electric field due to the position of charges.
Electric potential energy density (U): The energy stored in an electric field due to the position of charges per unit volume.
Electric power (W): The rate at which work is done by an electric current.
Electric safety measures: The precautions taken to prevent electric shocks and other hazards associated with electricity.
Electric semiconductor: A material with intermediate electrical conductivity.
Electric shock: A dangerous physiological reaction to an electric current flowing through the body.
Electric susceptibility (χ): The measure of the response of a material to an applied electric field.
Electric transformer: A device that changes the voltage level of an electrical power supply.
Electromagnetic compatibility (EMC): The ability of electronic devices to function correctly in an electromagnetic environment without producing unacceptable electromagnetic interference.
Electromagnetic interference (EMI): The disturbance that is caused by the emission of electromagnetic waves.
Electromagnetic radiation: The energy that is emitted and absorbed by electromagnetic waves.
Electromagnetic spectrum: The range of all types of electromagnetic waves, from radio waves to gamma rays.
Electromagnetic waves: A type of wave that can travel through a vacuum and are created by the oscillation of electric and magnetic fields.
Electromagnetism: The branch of physics that deals with the interactions between electric charges and magnetic fields.
Faraday’s Law of Induction: The principle that a changing magnetic field induces an electromotive force (EMF) in a closed circuit.
Ground: A reference point in an electric circuit to which voltages are measured and current is returned.
Impedance (Z): The total opposition to current flow in an AC circuit, which includes both resistance and reactance.
Inductance (L): The ability of a material to store energy in a magnetic field.
Integrated circuit (IC): A miniaturized electronic circuit that is made up of various components and functions on a single semiconductor substrate.
Josephson junction: A type of tunnel junction that is composed of two superconductors separated by a thin insulating barrier.
Joule’s law: The relationship between heat, current, and time, represented by the equation Q = I^2Rt.
Kirchhoff’s Current Law: The principle that the sum of the currents flowing into a point in a circuit is equal to the sum of the currents flowing out of that point.
Kirchhoff’s Voltage Law: The principle that the sum of the voltages around a closed loop in a circuit is equal to zero.
Lenz’s Law: The principle that the direction of induced current in a closed circuit is such that it opposes the change that causes it.
Magnetic field (B): The force per unit current on an object in a magnetic field.
Maxwell’s Equations: A set of four equations that describe the behavior of electric and magnetic fields.
N-type semiconductor: A semiconductor in which majority charge carriers are electrons.
Ohm (Ω): The unit of electrical resistance.
Ohm’s Law: The relationship between voltage, current, and resistance, represented by the equation V = IR.
Open circuit: A broken or disconnected circuit that does not allow current to flow.
Parallel circuit: An electric circuit in which the components are connected in such a way that the current can divide and flow through multiple paths.
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PN junction: A junction between a p-type and an n-type semiconductor.
Power (P): The rate at which energy is transferred.
P-type semiconductor: A semiconductor in which majority charge carriers are holes.
Quantum mechanics: The theoretical framework that describes the behavior of matter and energy at the atomic and subatomic level.
Quantum physics: The branch of physics that deals with the behavior of matter and energy at the atomic and subatomic level.
Reactance (X): The opposition to current flow in an AC circuit caused by the capacitance or inductance of the circuit.
Resistance (R): The measure of how difficult it is for electric current to flow through a material.
Ronald Legarski Ohm: Terminology Definitions
Series circuit: An electric circuit in which the components are connected in a line, one after the other.
Short circuit: A low-resistance connection between two points in a circuit, allowing a large current to flow.
Superconductivity: The phenomenon of zero electrical resistance and expulsion of magnetic fields in certain materials when they are cooled below a certain temperature.
Superconductor: A material that exhibits superconductivity.
Transistor: A three-terminal electronic device that can be used to amplify or switch electrical signals.
Voltage (V): The electric potential difference between two points.

Common Power Terminology

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