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docs: quantity hierarchies in the User's Guide upated to match auto-generated ones

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Mateusz Pusz
2026-01-20 17:05:36 +01:00
parent 61d396f714
commit 41408d5f16
2 changed files with 12 additions and 7 deletions
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8
docs/users_guide/framework_basics/dimensionless_quantities.md
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@@ -273,12 +273,12 @@ flowchart TD
dimensionless["<b>dimensionless</b><br>[one]"]
dimensionless --- rotation["<b>rotation</b>"]
dimensionless --- thermodynamic_efficiency["<b>thermodynamic_efficiency</b><br><i>(work / heat)</i>"]
dimensionless --- angular_measure["<b>angular_measure</b><br><i>(arc_length / radius)</i><br>[rad]"]
dimensionless --- angular_measure["<b>angular_measure</b>🔒<br><i>(arc_length / radius)</i><br>[rad]"]
angular_measure --- rotational_displacement["<b>rotational_displacement</b><br><i>(path_length / radius)</i>"]
angular_measure --- phase_angle["<b>phase_angle</b>"]
dimensionless --- solid_angular_measure["<b>solid_angular_measure</b><br><i>(area / pow<2>(radius))</i><br>[sr]"]
dimensionless --- drag_factor["<b>drag_factor</b><br><i>(drag_force / (mass_density * pow<2>(speed) * area))</i>"]
dimensionless --- storage_capacity["<b>storage_capacity</b><br>[bit]"] --- equivalent_binary_storage_capacity["<b>equivalent_binary_storage_capacity</b>"]
dimensionless --- solid_angular_measure["<b>solid_angular_measure</b>🔒<br><i>(area / radius<sup>2</sup>)</i><br>[sr]"]
dimensionless --- drag_factor["<b>drag_factor</b><br><i>(drag_force / (mass_density * speed<sup>2</sup> * area))</i>"]
dimensionless --- storage_capacity["<b>storage_capacity</b>🔒<br>[bit]"] --- equivalent_binary_storage_capacity["<b>equivalent_binary_storage_capacity</b>"]
dimensionless --- ...
```

11
docs/users_guide/framework_basics/systems_of_quantities.md
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@@ -341,15 +341,20 @@ The below presents some arbitrary hierarchy of derived quantities of kind _energ
```mermaid
flowchart TD
energy["<b>energy</b><br><i>(mass * length<sup>2</sup> / time<sup>2</sup>)</i><br>[J]"]
energy --- mechanical_energy["<b>mechanical_energy</b>"]
energy --- signal_energy_per_binary_digit["<b>signal_energy_per_binary_digit</b><br><i>(carrier_power * period_of_binary_digits)</i>"]
energy --- mechanical_work["<b>mechanical_work</b>"]
mechanical_work --- mechanical_energy["<b>mechanical_energy</b><br><i>(force * displacement)</i>"]
mechanical_energy --- potential_energy["<b>potential_energy</b>"]
potential_energy --- gravitational_potential_energy["<b>gravitational_potential_energy</b><br><i>(mass * acceleration_of_free_fall * height)</i>"]
potential_energy --- elastic_potential_energy["<b>elastic_potential_energy</b><br><i>(spring_constant * amount_of_compression<sup>2</sup>)</i>"]
mechanical_energy --- kinetic_energy["<b>kinetic_energy</b><br><i>(mass * speed<sup>2</sup>)</i>"]
energy --- enthalpy["<b>enthalpy</b>"]
enthalpy --- internal_energy["<b>internal_energy</b> | <b>thermodynamic_energy</b>"]
energy --- radiant_energy["<b>radiant_energy</b>"]
energy --- internal_energy["<b>internal_energy</b> | <b>thermodynamic_energy</b>"]
internal_energy --- Helmholtz_energy["<b>Helmholtz_energy</b> | <b>Helmholtz_function</b>"]
internal_energy --- enthalpy["<b>enthalpy</b>"]
enthalpy --- Gibbs_energy["<b>Gibbs_energy</b> | <b>Gibbs_function</b>"]
internal_energy --- heat["<b>heat</b> | <b>amount_of_heat</b>"]
heat --- latent_heat["<b>latent_heat</b>"]
energy --- active_energy["<b>active_energy</b>"]
```