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

I

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

the current in dimensionless units

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

the current current in the ring

I - Variable in class simulations.objects.CurrentRing

current in ring (positive current is right handed with respect to the axis of the ring)

I - Variable in class simulations.objects.InfiniteWire

I0 - Variable in class simulations.experiments.faradaysLaw.FallingRingExperiment

the current scale factor, see TEAL_Physics_Math document

I0 - Variable in class simulations.experiments.magnetostatics.TeachSpinExperiment

the amplitude of the sinusoidal variation in the current in the lower current ring

I1 - Variable in class simulations.experiments.magnetostatics.TeachSpinExperiment

the amplitude of the sinusoidal variation in the current in the lower current ring

ISMfield - class simulations.objects.ISMfield.

ISMfield(double, Vec3) - Constructor for class simulations.objects.ISMfield

constructor

Ident - Static variable in class core.math.Mat2

Do not modify Ident = the identity matrix

Identity() - Method in class simulations.objects.EMTransform

ImageIO - class core.io.ImageIO.

Writes an RGBImage to a file.

ImageIO() - Constructor for class core.io.ImageIO

IncreaseSat(double) - Method in class core.postprocessing.Colorizer

Defines the value of S in HSV if we are above the break point in field strength.

InfiniteWire - class simulations.objects.InfiniteWire.

InfiniteWire(double, Vec3, Vec3) - Constructor for class simulations.objects.InfiniteWire

InfiniteWire(double, double, Vec3, Vec3) - Constructor for class simulations.objects.InfiniteWire

InfiniteWire(double, Vec3, Vec3, Vec3) - Constructor for class simulations.objects.InfiniteWire

InfiniteWire(double, double, Vec3, Vec3, Vec3) - Constructor for class simulations.objects.InfiniteWire

InitOutputWindow() - Method in class core.rendering.Renderer

InitOutputWindow() is only used internally by Renderer.

Initialize() - Method in class core.field.RandomGridIterator

InitializeContrib(int) - Method in class core.dflic.FLIC

InitializeElements() - Method in class core.dflic.DFLIC

InitializeElements(int) - Method in class core.dflic.DFLIC

InitializeInput() - Method in class core.dflic.DFLIC

InitializeRandom() - Method in class core.dflic.DFLIC

Initializes the random-number generator with a randomly-seeded Random object

Integrable - interface simulations.objects.antennaMath.Integrable.

Invalid - Static variable in class core.math.Mat2

Do not modify Invalid = an invalid Mat2

Invalid - Static variable in class core.math.Vec2

do not modify Invalid = an invalid Vec

Invalid - Static variable in class core.math.Vec3

should not be modified Invalid = an invalid Vec3

Invert() - Method in class core.math.Mat2

Inverts "this" Returns: resulting "this" Requires: "this" is not singular

i(byte) - Static method in class core.io.ImageIO

i(byte) - Static method in class core.postprocessing.Periodify

For byte b >= 0 return int b, otherwise return 256 + int b.

i - Variable in class simulations.objects.LineCurrent

i1 - Variable in class simulations.experiments.fluidFlow.CirculatingFlowExperiment

i2 - Variable in class simulations.experiments.fluidFlow.CirculatingFlowExperiment

i3 - Variable in class simulations.experiments.fluidFlow.CirculatingFlowExperiment

i4 - Variable in class simulations.experiments.fluidFlow.CirculatingFlowExperiment

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

ifile - Static variable in class core.io.ImageIO

ikernel - Variable in class core.rendering.Renderer

kernel for the image (this controls the blending of the image).

image - Variable in class simulations.objects.Line3DMagneticDipoles

image charge parameter for line of dipoles.

image - Variable in class simulations.objects.MagneticMonopole

The image charge parameter for the monopole.

inBounds(int, int) - Method in class core.image.ScalarImage

Returns: true if 0<=xinBounds(double, double) - Method in class core.image.ScalarImage

Returns: true if 0.0<=x<=(width-1.0) and 0.0<=y<=(height-1.0), false otherwise, the domain check for when "this" is viewed as a continuous field.

inBounds(Vec2) - Method in class core.image.ScalarImage

Returns: true if "v" is within the domain of "this" when viewed as a continuous field.

infname - Static variable in class core.postprocessing.Periodify

Input sequence filename.

input - Variable in class core.dflic.DFLIC

input - Variable in class core.dflic.FLIC

inputfilterkernel - Variable in class core.dflic.DFLIC

inputfilterrepeat - Variable in class core.dflic.DFLIC

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

integrator for the equation of motion of the particle

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

The integrator used to evolve the system

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

The integrator used to evolve the system

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

define the integraton scheme used to numerically integrate the evolution equations in time

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

define the integraton scheme used to numerically integrate the evolution equations in time

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

define the integraton scheme used to numerically integrate the evolution equations in time

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

define the integraton scheme used to numerically integrate the evolution equations in time

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

define the integraton scheme used to numerically integrate the evolution equations in time

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

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

define the integraton scheme used to numerically integrate the evolution equations in time

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

The integrator used to evolve the system

invert() - Method in class core.math.Mat2

Returns: a new Mat2 that is the inverse of "this" Requires: "this" is not singular

invert() - Method in class core.math.Vec2Transform

Returns: a new Vec2Transform that is the inverse of 'this'

invrot - Variable in class simulations.objects.EMTransform

isOrthoNormal() - Method in class core.math.Mat2

Returns: true if the x- and y-axes of "this" as a left-multiplying linear transform are orthonormal, false otherwise

isOrthoScaled() - Method in class core.math.Mat2

Returns: true if the x- and y-axes of "this" as a left-multiplying linear transform are orthogonal and of equal magnitude, else false

isOrthogonal() - Method in class core.math.Mat2

isRigid() - Method in class core.math.Vec2Transform

Returns: true if 'this' is a rigid transformation, otherwise false

isRigidScaled() - Method in class core.math.Vec2Transform

Returns: true if 'this' is a scaled rigid transformation, else false

isZero() - Method in class core.math.Mat2

Returns: true if "this" is zero, false otherwise

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

Returns: true if "this" is the zero-vector, false otherwise

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

Returns: true if "this" is zero, false otherwise

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

Returns: true if 'this' is zero, false otherwise

istreamlen - Variable in class core.dflic.FLIC

Private temporary variables

iterator - Variable in class core.dflic.FLIC

itof - Variable in class core.dflic.DFLIC

itoo - Variable in class core.dflic.FLIC