mpusz/mp-units
1
0
Fork 1
mirror of https://github.com/mpusz/mp-units.git synced 2025-08-01 03:14:29 +02:00
Code Issues Packages Projects Releases Wiki Activity

docs: line breaks in mermaid graphs fixed

Browse Source
This commit is contained in:
Mateusz Pusz
2024-09-19 21:12:16 -06:00
parent 61a730d0a4
commit 6e6e0ce2d8
2 changed files with 10 additions and 10 deletions
Download Patch File Download Diff File Expand all files Collapse all files

8
docs/users_guide/framework_basics/dimensionless_quantities.md
View File

@@ -253,15 +253,15 @@ Those cases make dimensionless quantities an exceptional tree in the library. Th
```mermaid
flowchart TD
dimensionless["dimensionless\n[one]"]
dimensionless["dimensionless<br>[one]"]
dimensionless --- rotation
dimensionless --- efficiency
dimensionless --- angular_measure["angular_measure\n[rad]"]
dimensionless --- angular_measure["angular_measure<br>[rad]"]
angular_measure --- rotational_displacement
angular_measure --- phase_angle
dimensionless --- solid_angular_measure["solid_angular_measure\n[sr]"]
dimensionless --- solid_angular_measure["solid_angular_measure<br>[sr]"]
dimensionless --- drag_factor
dimensionless --- storage_capacity["storage_capacity\n[bit]"] --- equivalent_binary_storage_capacity
dimensionless --- storage_capacity["storage_capacity<br>[bit]"] --- equivalent_binary_storage_capacity
dimensionless --- ...
```

12
docs/users_guide/framework_basics/systems_of_quantities.md
View File

@@ -108,8 +108,8 @@ flowchart TD
path_length --- distance
distance --- radial_distance
length --- wavelength
length --- position_vector["position_vector\n{vector}"]
length --- displacement["displacement\n{vector}"]
length --- position_vector["position_vector<br>{vector}"]
length --- displacement["displacement<br>{vector}"]
radius --- radius_of_curvature
```
@@ -299,12 +299,12 @@ The below presents some arbitrary hierarchy of derived quantities of kind energy
```mermaid
flowchart TD
energy["energy\n(mass * length<sup>2</sup> / time<sup>2</sup>)"]
energy["energy<br>(mass * length<sup>2</sup> / time<sup>2</sup>)"]
energy --- mechanical_energy
mechanical_energy --- potential_energy
potential_energy --- gravitational_potential_energy["gravitational_potential_energy\n(mass * acceleration_of_free_fall * height)"]
potential_energy --- elastic_potential_energy["elastic_potential_energy\n(spring_constant * amount_of_compression<sup>2</sup>)"]
mechanical_energy --- kinetic_energy["kinetic_energy\n(mass * speed<sup>2</sup>)"]
potential_energy --- gravitational_potential_energy["gravitational_potential_energy<br>(mass * acceleration_of_free_fall * height)"]
potential_energy --- elastic_potential_energy["elastic_potential_energy<br>(spring_constant * amount_of_compression<sup>2</sup>)"]
mechanical_energy --- kinetic_energy["kinetic_energy<br>(mass * speed<sup>2</sup>)"]
energy --- enthalpy
enthalpy --- internal_energy[internal_energy, thermodynamic_energy]
internal_energy --- Helmholtz_energy[Helmholtz_energy, Helmholtz_function]