2024-02-18 01:41:32 +01:00
6 changed files with 15 additions and 15 deletions
--- a/manual/editors/nla/sidebar.rst
+++ b/manual/editors/nla/sidebar.rst
@ -49,22 +49,22 @@ Blending
      The result of the strip is multiplied, subtracted, or added to the accumulated results,
      and then blended in according to influence.

-      :math:`result = mix(previous, previous (+-*) value, influence)`
+      :math:`result = mix(previous, previous (+-×) value, influence)`
   Combine
      Depending on the type of each property, one of the following methods is automatically chosen:

      Axis/Angle Rotation
-         :math:`result = previous + value * influence`
+         :math:`result = previous + value × influence`

         This results in averaging the axis and adding the amount of rotation.
      Quaternion Rotation
         Quaternion math is applied to all four channels of the property at once:

-         :math:`result = {previous} \times {value} ^ {influence}`
+         :math:`result = {previous} × {value} ^ {influence}`
      Proportional (Scale)
-         :math:`result = previous * (value / default) ^ {influence}`
+         :math:`result = previous × (value / default) ^ {influence}`
      Others
-         :math:`result = previous + (value - default) * {influence}`
+         :math:`result = previous + (value - default) × {influence}`

      This allows layering actions that can also be used as a standalone.
      Properties keyframed at their default values remain at default.
--- a/manual/editors/video_sequencer/sequencer/sidebar/modifiers.rst
+++ b/manual/editors/video_sequencer/sequencer/sidebar/modifiers.rst
@ -112,7 +112,7 @@ Lift/Gamma/Gain
      Adjusts highlights.

 Offset/Power/Slope (ASC-CDL)
-   The following formula is applied to each RGB color value separately: :math:`c_{out} =  (c_{in}*s + o)^p`
+   The following formula is applied to each RGB color value separately: :math:`c_{out} =  (c_{in}×s + o)^p`

   Slope
      The multiplier :math:`s` influences all color values except black. Its effect is stronger
--- a/manual/modeling/geometry_nodes/instances.rst
+++ b/manual/modeling/geometry_nodes/instances.rst
@ -71,7 +71,7 @@ The term "realizing" instances referes to converting the instances into unique g
 When instances are realized they will take up more memory and manipulation to geometry
 will have to be processed individually rather the once per instancing geometry.

-To realize instance use the :doc`/modeling/geometry_nodes/instances/realize_instances`.
+To realize instance use the :doc:`/modeling/geometry_nodes/instances/realize_instances`.


 .. _geometry-nodes_instance-processing:
--- a/manual/modeling/modifiers/deform/displace.rst
+++ b/manual/modeling/modifiers/deform/displace.rst
@ -52,7 +52,7 @@ Strength
   The strength of the displacement. After offsetting by the *Midlevel* value,
   the displacement will be multiplied by the *Strength* value to give the final vertex offset.

-   :math:`vertex_offset = displacement × Strength`
+   :math:`vertex\_offset = displacement × Strength`

   A negative strength can be used to invert the effect of the modifier.

@ -61,7 +61,7 @@ Midlevel
   Texture values below this threshold will result in negative displacement along the selected direction,
   while texture values above it will result in positive displacement.

-   :math:`displacement = texture_value - Midlevel`
+   :math:`displacement = texture\_value - Midlevel`

   Recall that color/luminosity values are typically between (0.0 to 1.0) in Blender,
   and not between (0 to 255).
--- a/manual/render/shader_nodes/converter/vector_math.rst
+++ b/manual/render/shader_nodes/converter/vector_math.rst
@ -45,7 +45,7 @@ Operation
      :math:`\begin{pmatrix} A_x / B_x \\ A_y / B_y \\ A_z / B_z \end{pmatrix}`
   :Multiply Add:
      The entrywise combination of the multiply and addition operations.
-      :math:`A * B + C`
+      :math:`A × B + C`
   :Cross Product: The cross product of A and B.
      :math:`\begin{pmatrix} A_y \cdot B_z - A_z \cdot B_y \\ A_z \cdot B_x - A_x \cdot B_z
      \\ A_x \cdot B_y - A_y \cdot B_x \end{pmatrix}`
--- a/manual/render/shader_nodes/shader/hair_principled.rst
+++ b/manual/render/shader_nodes/shader/hair_principled.rst
@ -71,8 +71,8 @@ Melanin Redness

   .. hint::

-      The ratio formula is: :math:`eumelanin = Melanin*(1.0-MelaninRedness)`,
-      :math:`pheomelanin = Melanin*MelaninRedness`.
+      The ratio formula is: :math:`eumelanin = Melanin×(1.0-MelaninRedness)`,
+      :math:`pheomelanin = Melanin×MelaninRedness`.

      The resulting quantities are converted (after randomization, if specified)
      to absorption concentration via the following formula
@ -81,8 +81,8 @@ Melanin Redness
      .. math::

         \sigma_{a} =
-         eumelanin   * \left[\begin{matrix} 0.506 \\ 0.841 \\ 1.653 \\ \end{matrix}\right] +
-         pheomelanin * \left[\begin{matrix} 0.343 \\ 0.733 \\ 1.924 \\ \end{matrix}\right]
+         eumelanin   × \left[\begin{matrix} 0.506 \\ 0.841 \\ 1.653 \\ \end{matrix}\right] +
+         pheomelanin × \left[\begin{matrix} 0.343 \\ 0.733 \\ 1.924 \\ \end{matrix}\right]

   .. figure:: /images/render_shader-nodes_shader_hair-principled_demo-melanin-redness.jpg
      :align: center
@ -124,7 +124,7 @@ Random Color
   .. hint::

      The melanin concentration is multiplied by :math:`randomFactor`,
-      where :math:`randomFactor = 1.0 + 2.0*(Random - 0.5) * RandomColor`.
+      where :math:`randomFactor = 1.0 + 2.0×(Random - 0.5) × RandomColor`.

   .. figure:: /images/render_shader-nodes_shader_hair-principled_demo-random-color.jpg
      :align: center