Differences between revisions 2 and 3

Gradient

A gradient is a vector of partial derivatives. It describes the direction of steepest ascent for a differentiable function.

Contents

Gradient
1. Notation

Notation

The gradient of function f is notated as ∇f. In terms of partial derivatives, the gradient of f(x₁, x₂, ... x_n) is:

At a given point p, as long as the function f is differentiable at p, the gradient vector is:

Note the assumption; it is not negligible. For example, (xy)/(x² + y²) is partially derivable but is itself not totally derivable at point p = [0 0]. Furthermore, it is not derivable if rotated; the basis must be orthonormal.

CategoryRicottone

-  ⇤ ← Revision 2 as of 2025-03-27 13:39:44 → 
  Size: 919
  Editor: DominicRicottone
  Comment: Renamed page
+   ← Revision 3 as of 2025-03-27 13:51:27 → ⇥
  Size: 887
  Editor: DominicRicottone
  Comment: Renamed figure
-Deletions are marked like this.
+Additions are marked like this.
 Line 1:
-## page was renamed from Calculus/GradientVector
= Gradient Vector =
+= Gradient =
-Line 4:
+Line 3:
-A '''gradient vector''' describes the direction of steepest ascent for a differentiable function.
+A '''gradient''' is a vector of partial derivatives. It describes the direction of steepest ascent for a differentiable function.
-Line 14:
+Line 13:
-In terms of [[Calculus/PartialDerivatives|partial derivatives]], the gradient vector of ''f(x,,1,,, x,,2,,, ... x,,n,,)'' is ''[∂f/∂x,,1,, ∂f/∂x,,2,, ... ∂f/∂x,,n,,]''. The gradient is notated as ''∇f''.
+The gradient of function ''f'' is notated as ''∇f''. In terms of [[Calculus/PartialDerivatives|partial derivatives]], the gradient of ''f(x,,1,,, x,,2,,, ... x,,n,,)'' is:

{{attachment:gradient.svg}}
-Line 18:
+Line 19:
-{{attachment:gradient.svg}}
+{{attachment:gradientvector.svg}}

Diff for "Calculus/Gradient"

Gradient

Notation