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

B

B - Variable in class core.dflic.Streamline

B - Variable in class core.field.EMVec2Field

B - Variable in class simulations.objects.ConstantFields

B - Variable in class simulations.objects.MovingMagneticField

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

The slope of the color test field

BCT - Variable in class simulations.objects.ColorTestField

the value of the field at the origin of the point charge

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

BaseExperiment - class simulations.experiments.BaseExperiment.

This is the abstract parent class that all actual experiments should extend.

BaseExperiment() - Constructor for class simulations.experiments.BaseExperiment

BaseObject - class simulations.objects.BaseObject.

This is the abstract base class for physical objects.

BaseObject() - Constructor for class simulations.objects.BaseObject

Bfactor - Static variable in class simulations.Constants

mhu naught over 4 pi in Biot Savart Law

Bfactor - Static variable in class simulations.objects.InfiniteWire

Bfactor - Static variable in class simulations.objects.LineCurrent

Bfactor - Static variable in class simulations.objects.LineMagneticMonopoles

Bfactor - Static variable in class simulations.objects.MagneticDipole

Bfactor - Static variable in class simulations.objects.MagneticDipoleStatic

Bfactor - Static variable in class simulations.objects.MovingRecedingImagePotentialBelow

mhu naught over 4 pi, the overall multiplicative constant

Bfield - Static variable in class core.field.EMVec2Field

In this case "field" is a magnetic field

Bfield(Vec3, Vec3) - Method in class simulations.objects.BaseObject

Sets 'B' to the value of the magnetic field at 'x'.

Bfield(Vec3) - Method in class simulations.objects.BaseObject

Returns: a new Vec3 with the value of the magnetic field at 'x'.

Bfield(Vec3, Vec3) - Method in class simulations.objects.ChargeRingFinite

Bfield(Vec3, Vec3) - Method in class simulations.objects.ColorTestField

the magnetic field of the color test field is zero

Bfield(Vec3, Vec3) - Method in class simulations.objects.ConstantFields

Bfield(Vec3, Vec3) - Method in class simulations.objects.CurrentRing

Sets "B" to the value of the magnetic field at "x".

Bfield(Vec3, Vec3) - Method in class simulations.objects.CurrentSheet

Bfield(Vec3, Vec3) - Method in class simulations.objects.DataInputObject

The method that returns the input velocity array evalutated at a position x on the screen.

Bfield(Vec3, Vec3) - Method in class simulations.objects.EMCollection

This method computes the total magnetic field of all the EM objects in the collection

Bfield(Vec3, Vec3) - Method in class simulations.objects.EMTransform

Bfield(Vec3, Vec3) - Method in class simulations.objects.EddyCurrents

The eddy current of a moving monopole.

Bfield(Vec3, Vec3) - Method in class simulations.objects.EflowXY

Bfield(Vec3, Vec3) - Method in class simulations.objects.ElectricAntenna

The magnetic field of the linear antenna.

Bfield(Vec3, Vec3) - Method in class simulations.objects.ElectricDipole

Compute the magnetic field at position x and time t

Bfield(Vec3, Vec3) - Method in class simulations.objects.ElectricDipoleRotating

Compute the magnetic field at position x and time t

Bfield(Vec3, Vec3) - Method in class simulations.objects.ElectricDipoleStatic

Bfield(Vec3, Vec3) - Method in class simulations.objects.ElectromagneticPlaneWave

Compute the magnetic field at position x and time t

Bfield(Vec3, Vec3) - Method in class simulations.objects.HelioField

the magnetic field (zero)

Bfield(Vec3, Vec3) - Method in class simulations.objects.ISMfield

the magnetic field (zero)

Bfield(Vec3, Vec3) - Method in class simulations.objects.InfiniteWire

Bfield(Vec3, Vec3) - Method in class simulations.objects.Line3DMagneticDipoles

the magnetic field of a non-relativistic line of moving magnetic dipoles

Bfield(Vec3, Vec3) - Method in class simulations.objects.LineCurrent

Bfield(Vec3, Vec3) - Method in class simulations.objects.LineMagneticMonopoles

Bfield(Vec3, Vec3) - Method in class simulations.objects.MagneticDipole

Bfield(Vec3, Vec3) - Method in class simulations.objects.MagneticDipoleStatic

Bfield(Vec3, Vec3) - Method in class simulations.objects.MagneticMonopole

Computes the magnetic field of a non-relativistic magnetic monopole.

Bfield(Vec3, Vec3) - Method in class simulations.objects.MovingMagneticField

Bfield(Vec3, Vec3) - Method in class simulations.objects.MovingPointCharge

the non-relativistic magnetic field of a moving point charge (v x E )

Bfield(Vec3, Vec3) - Method in class simulations.objects.MovingRecedingImagePotentialAbove

the magnetic field of a non-relativistic moving magnetic monopole in the upper half plane

Bfield(Vec3, Vec3) - Method in class simulations.objects.MovingRecedingImagePotentialBelow

the magnetic field of a non-relativistic moving magnetic monopole in the lower half plane

Bfield(Vec3, Vec3) - Method in class simulations.objects.PointCharge

the magnetic field of a stationary point charge (zero)

Bfield(Vec3, Vec3) - Method in class simulations.objects.TwoPlanes

the magnetic field of a non-relativistic moving magnetic monopole in the upper half plane

BfieldMotion - Static variable in class core.field.EMVec2Field

In this case "dfield" is velocity of drifting monopoles c^2 ExB/E^2

BfromScalarImage(ScalarImage, double) - Method in class core.image.RGBImage

Blend(byte[], byte[], double, byte[]) - Static method in class core.postprocessing.Periodify

Blends together two images "buf0" and "buf1" to produce "buf" using the blending coefficient "blend".

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

Bphi - class simulations.objects.antennaMath.Bphi.

Bphi(double, double, double, double) - Constructor for class simulations.objects.antennaMath.Bphi

Bphi(double, double, double, double) - Method in class simulations.objects.antennaMath.Bphi

Brighten(double, Vec3) - Method in class core.postprocessing.Colorizer

Brightens the image if we are well above the break point.

BtoScalarImage(ScalarImage) - Method in class core.image.RGBImage

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

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

b - Variable in class core.image.RGBImage

r, g, and b store the red, green, and blue pixel components

b - Variable in class core.math.Mat2

a,b,c,d are the components of the matrix

b1 - Variable in class simulations.objects.EflowXY

bBrighten - Variable in class core.postprocessing.Colorizer

Flag for doing more brightening of the image above the break point (brightening flushes out the streaks in the LIC at high field stregth to pure white).

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

the potential whose field vanishes for z > 0

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

parameter of the experiment as defined in the TEAL_Physics_Math reference

blend(int) - Static method in class core.postprocessing.Periodify

Returns the blending coefficient for output frame "frame".

blocksize - Variable in class core.field.RandomGridIterator

bstream - Variable in class core.dflic.FLIC

bufferedImage - Variable in class core.io.OutputWindow.OutputComponent

byteBuffer - Variable in class core.io.OutputWindow.OutputComponent

bytes - Static variable in class core.io.ImageIO

bytes - Static variable in class core.postprocessing.Periodify