vector gradient of an expression

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linalg[grad] - vector gradient of an expression

	Calling Sequence
	grad(expr, v) grad(expr, v, co)

Parameters

expr	-	scalar expression
v	-	vector or list of variables
co	-	(optional), is either of type `=` or a list of three elements. This option is used to compute the gradient in orthogonally curvilinear coordinate systems.

Description

•	Important: The linalg package has been deprecated. Use the superseding packages, LinearAlgebra and VectorCalculus, instead.

- For information on migrating linalg code to the new packages, see examples/LinearAlgebraMigration.

•	The function grad computes the gradient of expr with respect to v.

•	It computes the following vector of partial derivatives:

vector( [diff(expr, v[1]), diff(expr, v[2]), ...] ).

•	In the case of three dimensions, where expr is a scalar expression of three variables and v is a list or a vector of three variables:

If the optional third argument co is of the form coords = coords_name or coords = coords_name({[const]}), grad will operate on commonly used orthogonally curvilinear coordinate systems. See ?coords for the list of the different coordinate systems known to Maple.

For orthogonally curvilinear coordinates v[1], v[2], v[3]

with unit vectors a[1], a[2], a[3], and scale factors

h[1], h[2], h[3]:

Let the rectangular coordinates x, y, z be defined in terms of the

specified orthogonally curvilinear coordinates. We have:

h[n]^2 = [diff(x,v[n])^2 + diff(y,v[n])^2 + diff(z,v[n])^2], n=1,2,3.

The formula for the gradient vector is:

grad(expr) = sum(a[n]/h[n]*diff(expr,v[n]),n=1..3);

If the optional third argument co is a list of three elements which specify the scale factors, grad will operate on orthogonally curvilinear coordinate systems.

•	To compute the gradient in other orthogonally curvilinear coordinate systems, use the addcoords routine.

•	The two dimensional case is similar to the three dimensional one.

•	The command with(linalg,grad) allows the use of the abbreviated form of this command.

Examples

Important: The linalg package has been deprecated. Use the superseding packages, LinearAlgebra and VectorCalculus, instead.

>	$grad(3x^2+2y*z, Vector[row](3, {(1) = x, (2) = y, (3) = z}))$

(1)

(2)

(3)

define the scale factors in spherical coordinates

(4)

vector([sinh(xi)*cos(eta)*cos(phi)/(sinh(xi)^2+sin(eta)^2)^(1/2), -cosh(xi)*sin(eta)*cos(phi)/(sinh(xi)^2+sin(eta)^2)^(1/2), -cosh(xi)*cos(eta)*sin(phi)/(sinh(xi)*sin(eta))])

(5)

	See Also
	addcoords, coords, diff, linalg(deprecated)[curl], linalg(deprecated)[diverge], linalg(deprecated)[laplacian], LinearAlgebra, VectorCalculus[Gradient]