A B C D E F G H I K L M N O P Q R S T U V W X Y Z

T

T - Static variable in class simulations.animations.radiation.SinusoidalDipoleRadiationAnimation

TargetHue - Variable in class core.postprocessing.Colorizer

Hue for the colorization of the field.

TargetSaturation - Variable in class core.postprocessing.Colorizer

Saturation for the colorization of the field.

TargetValue - Variable in class core.postprocessing.Colorizer

Value for the colorization of the field.

TeachSpinAnimation - class simulations.animations.magnetostatics.TeachSpinAnimation.

TeachSpinAnimation() - Constructor for class simulations.animations.magnetostatics.TeachSpinAnimation

TeachSpinExperiment - class simulations.experiments.magnetostatics.TeachSpinExperiment.

Experiment consists of two ring currents, one above the other.

TeachSpinExperiment(double, double, double, double, double, double, double) - Constructor for class simulations.experiments.magnetostatics.TeachSpinExperiment

constructor for the experiment

Translation(Vec3) - Method in class simulations.objects.EMTransform

TwoChargesExperiment - class simulations.experiments.electrostatics.TwoChargesExperiment.

Electro-quasi-statics exeriment with one moving charge and one stationary charge.

TwoChargesExperiment(double, double, double, double, double, double) - Constructor for class simulations.experiments.electrostatics.TwoChargesExperiment

Constructs the two charges with their initial positions

TwoChargesExperiment.Motion - class simulations.experiments.electrostatics.TwoChargesExperiment.Motion.

The equation of motion governing the evolution of the system

TwoChargesExperiment.Motion() - Constructor for class simulations.experiments.electrostatics.TwoChargesExperiment.Motion

TwoPlanes - class simulations.objects.TwoPlanes.

TwoPlanes: This BaseObject calculates the non-relativistic magnetic fields induced by a monopole situated near two thin conducting planes intersecting at right angle.

TwoPlanes(double, double, double, double, double, double, double) - Constructor for class simulations.objects.TwoPlanes

Constructs an instance of the object using the given parameters.

TwoPlanesAnimation - class simulations.animations.faradaysLaw.TwoPlanesAnimation.

Calculate the magnetic field due to a monopole appearng at t = 0 in the first quandrant of the intersection of two thin conducting planes, following Liu and Belcher 2007 Appendix A.

TwoPlanesAnimation() - Constructor for class simulations.animations.faradaysLaw.TwoPlanesAnimation

TwoPlanesExperiment - class simulations.experiments.faradaysLaw.TwoPlanesExperiment.

Receeding Image experiment, consisting of a monopole appearing at t =0 in the first quadrant of two perpendicular thin conducting planes.

TwoPlanesExperiment(double, double, double, double, double, double, double) - Constructor for class simulations.experiments.faradaysLaw.TwoPlanesExperiment

Constructs an instance of the experiment using the given parameters.

TwoPlanesExperiment.Motion - class simulations.experiments.faradaysLaw.TwoPlanesExperiment.Motion.

Specifies the time derivative of the parmeters which describe the experiment at any time t.

TwoPlanesExperiment.Motion() - Constructor for class simulations.experiments.faradaysLaw.TwoPlanesExperiment.Motion

t - Variable in class simulations.experiments.electrostatics.ChargeInFieldExperiment

time

t - Variable in class simulations.experiments.electrostatics.ColorTestExperiment

The time t

t - Variable in class simulations.experiments.electrostatics.TwoChargesExperiment

The time t

t - Variable in class simulations.experiments.faradaysLaw.EddyCurrentsDipoleExperiment

the time

t - Variable in class simulations.experiments.faradaysLaw.EddyCurrentsMonopoleExperiment

the time

t - Variable in class simulations.experiments.faradaysLaw.FallingRingExperiment

the time in dimensionless units

t - Variable in class simulations.experiments.faradaysLaw.MovingRecedingImagePotentialExperiment

the time

t - Variable in class simulations.experiments.faradaysLaw.MovingReceedingImageExperiment

the time

t - Variable in class simulations.experiments.faradaysLaw.RecedingImageExperiment

The time.

t - Variable in class simulations.experiments.faradaysLaw.TwoPlanesExperiment

the time

t - Variable in class simulations.experiments.fluidFlow.CirculatingFlowExperiment

t - Variable in class simulations.experiments.fluidFlow.DataInputExperiment

t - Variable in class simulations.experiments.fluidFlow.HeliosphereFlowExperiment

The time t

t - Variable in class simulations.experiments.magnetostatics.TeachSpinExperiment

the time

t - Variable in class simulations.experiments.radiation.ElectricAntennaExperiment

The time.

t - Variable in class simulations.objects.DataInputObject

t - Variable in class simulations.objects.EddyCurrents

the time

t - Variable in class simulations.objects.ElectricDipole

The time.

t - Variable in class simulations.objects.ElectricDipoleRotating

The time.

t - Variable in class simulations.objects.ElectromagneticPlaneWave

The time.

t - Variable in class simulations.objects.MovingRecedingImagePotentialAbove

the time

t - Variable in class simulations.objects.MovingRecedingImagePotentialBelow

the time

t - Variable in class simulations.objects.TwoPlanes

t is the time

t0 - Variable in class simulations.experiments.faradaysLaw.FallingRingExperiment

the time scale factor, see TEAL_Physics_Math document

ta - Variable in class simulations.objects.ElectricAntenna

The time.

temp - Variable in class simulations.objects.EMCollection

a temporary location for computation of the total electric field and etc.

temp - Variable in class simulations.objects.EMTransform

theta - Variable in class simulations.objects.ElectricDipoleRotating

The angle that the dipole moment mades to the z-axis

tline - Variable in class simulations.objects.Line3DMagneticDipoles

A unit vector along the axis of the line of dipoles

toBGRBytes(byte[]) - Method in class core.image.RGBImage

Copies the pixel data in 'this' to the byte-buffer 'buf' in BGR packed order.

toRGBBytes(byte[]) - Method in class core.image.RGBImage

Copies the pixel data in 'this' to the byte-buffer 'buf' in RGB packed order.

toString() - Method in class simulations.objects.ColorTestField

writes properties of the point charge to a string

toString() - Method in class simulations.objects.DataInputObject

toString() - Method in class simulations.objects.EddyCurrents

writes properties of the point charge to a string

toString() - Method in class simulations.objects.EflowXY

toString() - Method in class simulations.objects.ElectricDipoleStatic

toString() - Method in class simulations.objects.HelioField

writes properties of the HelioField to a string

toString() - Method in class simulations.objects.ISMfield

writes properties of the HelioField to a string

toString() - Method in class simulations.objects.Line3DMagneticDipoles

writes properties of the point charge to a string

toString() - Method in class simulations.objects.LineCurrent

toString() - Method in class simulations.objects.LineMagneticMonopoles

toString() - Method in class simulations.objects.MagneticDipoleStatic

toString() - Method in class simulations.objects.MagneticMonopole

Puts properties of the point charge into a string.

toString() - Method in class simulations.objects.MovingPointCharge

prints a string with the properties of the moving point charge

toString() - Method in class simulations.objects.MovingRecedingImagePotentialAbove

writes properties of the point charge to a string

toString() - Method in class simulations.objects.MovingRecedingImagePotentialBelow

writes properties of the point charge to a string

toString() - Method in class simulations.objects.PointCharge

writes properties of the point charge to a string

toString() - Method in class simulations.objects.TwoPlanes

writes properties of the point charge to a string

toVec() - Method in class core.math.Vec2

Returns: a new Vec that is < 2, "this" >

toVec() - Method in class core.math.Vec3

Returns: a new Vec that is < 3, 'this' >

toVec2() - Method in class core.math.Vec

Returns: a new Vec2 that is equal to "this" Requires: "this" is 2-dimensional

toVec3() - Method in class core.math.Vec

Returns: a new Vec3 that is equal to "this" Requires: "this" is 3-dimensional

toVector2d() - Method in class core.math.Vec2

Returns: a new Vector2d that equals "this"

toVector2f() - Method in class core.math.Vec2

Returns: a new Vector2f that equals "this"

toVector3d() - Method in class core.math.Vec3

Returns: a new Vector3d that equals 'this'

toVector3f() - Method in class core.math.Vec3

Returns: a new Vector3f that equals 'this'

tolerance - Variable in class core.dflic.Streamline

tolerance - Static variable in class core.math.Mat2

Do not modify tolerance is the per-component zero-value maximium

tolerance - Static variable in class core.math.Vec

tolerance is the per-component zero-value maximum

tolerance - Static variable in class core.math.Vec2

do not modify tolerance the per-component zero-value maximum

tolerance - Static variable in class core.math.Vec3

should not be modified tolerance the per-component zero-value maximum

transform(Vec3) - Method in class core.field.EMVec2Field

transformV(Vec3) - Method in class core.field.EMVec2Field

translate(Vec2) - Method in class core.math.Vec2Transform

Returns: a new Vec2Transform that is 'this' translated by 'origin'

tstore - Variable in class simulations.objects.DataInputObject

tw - Variable in class simulations.objects.antennaMath.Bphi

tw - Variable in class simulations.objects.antennaMath.EFlux

tw - Variable in class simulations.objects.antennaMath.Erho

tw - Variable in class simulations.objects.antennaMath.Ez

twoPlanes - Variable in class simulations.experiments.faradaysLaw.TwoPlanesExperiment

tx - Variable in class core.dflic.Streamline