Uses of Interface
org.episteme.core.measure.quantity.ElectricPotential

Packages that use ElectricPotential

Package	Description
org.episteme.core.measure	Implements a comprehensive units framework enabling type-safe
org.episteme.core.measure.quantity	Defines interfaces for physical quantities, organized by
org.episteme.core.measure.units
org.episteme.natural.chemistry
org.episteme.natural.chemistry.electrochemistry
org.episteme.natural.device.sensors
org.episteme.natural.device.sim	Provides classes and interfaces for org.episteme.natural.device.sim.
org.episteme.natural.engineering.electrical
org.episteme.natural.physics.classical.waves.electromagnetism.field

Uses of ElectricPotential in org.episteme.core.measure

Fields in org.episteme.core.measure with type parameters of type ElectricPotential

Modifier and Type	Field	Description
static final Unit<ElectricPotential>	Units.VOLT	Volt: V (electric potential). 1 V = 1 W/A = 1 J/(Aâ‹…s)

Methods in org.episteme.core.measure that return types with arguments of type ElectricPotential

Modifier and Type	Method	Description
static Quantity<ElectricPotential>	QuantityUtils.volts(double value)

Uses of ElectricPotential in org.episteme.core.measure.quantity

Subinterfaces with type arguments of type ElectricPotential in org.episteme.core.measure.quantity

Modifier and Type	Interface	Description
interface	ElectricPotential

Uses of ElectricPotential in org.episteme.core.measure.units

Fields in org.episteme.core.measure.units with type parameters of type ElectricPotential

Modifier and Type	Field	Description
static final Unit<ElectricPotential>	SI.VOLT

Uses of ElectricPotential in org.episteme.natural.chemistry

Methods in org.episteme.natural.chemistry that return types with arguments of type ElectricPotential

Modifier and Type	Method	Description
Quantity<ElectricPotential>	ChemicalCouple.getStandardPotential()

Constructor parameters in org.episteme.natural.chemistry with type arguments of type ElectricPotential

Modifier	Constructor	Description
	ChemicalCouple(String oxidant, String reductant, Quantity<ElectricPotential> e0)

Uses of ElectricPotential in org.episteme.natural.chemistry.electrochemistry

Methods in org.episteme.natural.chemistry.electrochemistry that return types with arguments of type ElectricPotential

Modifier and Type	Method	Description
static Quantity<ElectricPotential>	NernstEquation.calculatePotential(Quantity<ElectricPotential> standardPotential, Quantity<Temperature> temperature, int electrons, double reactionQuotient)	Calculates the cell potential under non-standard conditions.
static Quantity<ElectricPotential>	NernstEquation.calculatePotentialAt25C(Quantity<ElectricPotential> standardPotential, int electrons, double reactionQuotient)	Simplified Nernst equation at 25°C (298.15 K).
Quantity<ElectricPotential>	GalvanicCell.getStandardPotential()	Calculates the standard cell potential.
Quantity<ElectricPotential>	HalfCell.getStandardPotential()

Method parameters in org.episteme.natural.chemistry.electrochemistry with type arguments of type ElectricPotential

Modifier and Type	Method	Description
static Quantity<ElectricPotential>	NernstEquation.calculatePotential(Quantity<ElectricPotential> standardPotential, Quantity<Temperature> temperature, int electrons, double reactionQuotient)	Calculates the cell potential under non-standard conditions.
static Quantity<ElectricPotential>	NernstEquation.calculatePotentialAt25C(Quantity<ElectricPotential> standardPotential, int electrons, double reactionQuotient)	Simplified Nernst equation at 25°C (298.15 K).

Constructor parameters in org.episteme.natural.chemistry.electrochemistry with type arguments of type ElectricPotential

Modifier	Constructor	Description
	HalfCell(String reaction, Quantity<ElectricPotential> standardPotential)

Uses of ElectricPotential in org.episteme.natural.device.sensors

Subinterfaces with type arguments of type ElectricPotential in org.episteme.natural.device.sensors

Modifier and Type	Interface	Description
interface	Oscilloscope	Interface for oscilloscope devices.

Methods in org.episteme.natural.device.sensors that return types with arguments of type ElectricPotential

Modifier and Type	Method	Description
Quantity<ElectricPotential>	Oscilloscope.getTriggerLevel()
Quantity<ElectricPotential>	Oscilloscope.getVoltageScale(int channel)

Method parameters in org.episteme.natural.device.sensors with type arguments of type ElectricPotential

Modifier and Type	Method	Description
void	Oscilloscope.setTriggerLevel(Quantity<ElectricPotential> volts)
void	Oscilloscope.setVoltageScale(int channel, Quantity<ElectricPotential> voltsPerDivision)

Uses of ElectricPotential in org.episteme.natural.device.sim

Subclasses with type arguments of type ElectricPotential in org.episteme.natural.device.sim

Modifier and Type	Class	Description
class	SimulatedOscilloscope	Simulated oscilloscope.

Methods in org.episteme.natural.device.sim that return types with arguments of type ElectricPotential

Modifier and Type	Method	Description
Quantity<ElectricPotential>	SimulatedOscilloscope.getTriggerLevel()
Quantity<ElectricPotential>	SimulatedOscilloscope.getVoltageScale(int channel)
Quantity<ElectricPotential>	SimulatedOscilloscope.readValue()

Method parameters in org.episteme.natural.device.sim with type arguments of type ElectricPotential

Modifier and Type	Method	Description
void	SimulatedOscilloscope.setTriggerLevel(Quantity<ElectricPotential> volts)
void	SimulatedOscilloscope.setVoltageScale(int channel, Quantity<ElectricPotential> voltsPerDivision)

Uses of ElectricPotential in org.episteme.natural.engineering.electrical

Methods in org.episteme.natural.engineering.electrical that return types with arguments of type ElectricPotential

Modifier and Type	Method	Description
static Quantity<ElectricPotential>	CircuitAnalysis.capacitorChargingVoltage(Quantity<ElectricPotential> vmax, Quantity<Time> time, Quantity<Time> tau)	Capacitor voltage during charging: V(t) = Vmax * (1 - e^(-t/Ï„))
static Quantity<ElectricPotential>	CircuitAnalysis.capacitorDischargingVoltage(Quantity<ElectricPotential> v0, Quantity<Time> time, Quantity<Time> tau)	Capacitor voltage during discharging: V(t) = V0 * e^(-t/Ï„)
static Quantity<ElectricPotential>	CircuitAnalysis.voltage(Quantity<ElectricCurrent> current, Quantity<ElectricResistance> resistance)	Voltage from current and resistance.
static Quantity<ElectricPotential>	CircuitAnalysis.voltageDivider(Quantity<ElectricPotential> vin, Quantity<ElectricResistance> r1, Quantity<ElectricResistance> r2)	Output voltage of a voltage divider.

Method parameters in org.episteme.natural.engineering.electrical with type arguments of type ElectricPotential

Modifier and Type	Method	Description
static Quantity<ElectricPotential>	CircuitAnalysis.capacitorChargingVoltage(Quantity<ElectricPotential> vmax, Quantity<Time> time, Quantity<Time> tau)	Capacitor voltage during charging: V(t) = Vmax * (1 - e^(-t/Ï„))
static Quantity<ElectricPotential>	CircuitAnalysis.capacitorDischargingVoltage(Quantity<ElectricPotential> v0, Quantity<Time> time, Quantity<Time> tau)	Capacitor voltage during discharging: V(t) = V0 * e^(-t/Ï„)
static Quantity<ElectricCurrent>	CircuitAnalysis.current(Quantity<ElectricPotential> voltage, Quantity<ElectricResistance> resistance)	Current from voltage and resistance.
static Quantity<Power>	CircuitAnalysis.power(Quantity<ElectricPotential> voltage, Quantity<ElectricCurrent> current)	Electrical power.
static Quantity<Power>	CircuitAnalysis.powerFromVoltage(Quantity<ElectricPotential> voltage, Quantity<ElectricResistance> resistance)	Power from voltage and resistance.
static Quantity<ElectricResistance>	CircuitAnalysis.resistance(Quantity<ElectricPotential> voltage, Quantity<ElectricCurrent> current)	Resistance from voltage and current.
static Quantity<ElectricPotential>	CircuitAnalysis.voltageDivider(Quantity<ElectricPotential> vin, Quantity<ElectricResistance> r1, Quantity<ElectricResistance> r2)	Output voltage of a voltage divider.

Uses of ElectricPotential in org.episteme.natural.physics.classical.waves.electromagnetism.field

Methods in org.episteme.natural.physics.classical.waves.electromagnetism.field that return types with arguments of type ElectricPotential

Modifier and Type	Method	Description
static Quantity<ElectricPotential>	Electromagnetism.voltage(Quantity<ElectricCurrent> current, Quantity<ElectricResistance> resistance)	Ohm's law: V = IR