Updated Wiki content

calibration/volumetric-speed-calib.md

@@ -26,9 +26,9 @@ Use calipers or a ruler to measure the **height** of the model just before the d
 
 - Use the following formula
 
-  ```math
+  $$
   Filament Max Volumetric Speed = start + (HeightMeasured * step)
-  ```
+  $$
 
   In this case (19mm), so the calculation would be: `5 + (19 * 0.5) = 14.5mm³/s`
 

print_settings/quality/quality_settings_wall_generator.md

@@ -37,9 +37,9 @@ Defines the minimum angle (in degrees) required for the algorithm to create a tr
 
 Prevents rapid switching between more or fewer walls by defining a tolerance range around the minimum wall width. The extrusion width will stay within the range:
 
-```math
+$$
 \left[ \text{Minimum Wall Width} - \text{Margin},\ 2 \times \text{Minimum Wall Width} + \text{Margin} \right]
-```
+$$
 
 Higher values reduce transitions, travel moves, and extrusion starts/stops, but may increase extrusion variability and introduce print quality issues. Expressed as a percentage of nozzle diameter.
 

print_settings/speed/speed_settings_advanced.md

@@ -51,9 +51,9 @@ When a speed change is requested, the firmware look-ahead planner calculates the
 
 This deceleration move would happen over approximately 9.6mm. This is derived from the following equation:
 
-```math
+$$
 d = \frac{v_f^2 - v_i^2}{2a}
-```
+$$
 
 Where:
 
@@ -64,9 +64,9 @@ Where:
 
 The time taken to decelerate to this new speed would be approx. 0.08 seconds, derived from the following equation:
 
-```math
+$$
 t = \frac{v_f - v_i}{a}
-```
+$$
 
 A printer printing at 200mm/sec with a 0.42 line width and 0.16 layer height would be extruding plastic at approx. 12.16mm³/sec, as can also be seen from the below visual.
 

print_settings/speed/speed_settings_jerk_xy.md

@@ -80,9 +80,9 @@ Higher values result in more aggressive cornering speeds, while lower values pro
 
 This value will **only be overwritten** if it is lower than the Junction Deviation value set in Printer settings > Motion ability. If it is higher, the value configured in Motion ability will be used.
 
-```math
+$$
 JD = 0,4 \cdot \frac{\text{Jerk}^2}{\text{Accel.}}
-```
+$$
 
 ## Useful links
 

print_settings/speed/speed_settings_other_layers_speed.md

@@ -47,9 +47,9 @@ If expressed as percentage (for example: 80%) it will be calculated on the [oute
 **Radius** in millimeters below which the speed of perimeters will be reduced to the [small perimeters speed](#small-perimeters).  
 To know the length of the perimeter, you can use the formula:
 
-```math
+$$
 \frac{\text{Perimeter Length}}{2\pi} \leq \text{Threshold}
-```
+$$
 
 For example, if the threshold is set to 5 mm, then the perimeter length must be less than or equal to 31.4 mm (2 * π * 5 mm) to be considered a small perimeter.
 

printer_settings/basic information/printer_basic_information_advanced.md

@@ -37,9 +37,9 @@ Shape, material and density of an individual pellet will determine the packing d
 
 We are translating the pellet_flow_coefficient into filament_diameter so that everything works just like it does already with very minor adjustments.
 
-```math
+$$
 \text{filament\_diameter} = \sqrt{\frac{4 \times \text{pellet\_flow\_coefficient}}{\pi}}
-```
+$$
 
 sqrt just makes the relationship between flow_coefficient and volume linear.