diff --git a/src/Mod/Fem/femexamples/elmer_nonguitutorial01_eigenvalue_of_elastic_beam.py b/src/Mod/Fem/femexamples/elmer_nonguitutorial01_eigenvalue_of_elastic_beam.py index ce73901a10..dcec1f5add 100644 --- a/src/Mod/Fem/femexamples/elmer_nonguitutorial01_eigenvalue_of_elastic_beam.py +++ b/src/Mod/Fem/femexamples/elmer_nonguitutorial01_eigenvalue_of_elastic_beam.py @@ -92,7 +92,7 @@ def setup(doc=None, solvertype="elmer"): )[0] eq_obj = ObjectsFem.makeEquationElasticity(doc, solver_object) eq_obj.LinearSolverType = "Direct" - # direct solver was used in the turorial, thus used here too + # direct solver was used in the tutorial, thus used here too # the iterative is much faster and gives the same results eq_obj.DoFrequencyAnalysis = True eq_obj.CalculateStresses = True diff --git a/src/Mod/Fem/femtaskpanels/task_material_common.py b/src/Mod/Fem/femtaskpanels/task_material_common.py index 3071cd00ed..7bf592b1a2 100644 --- a/src/Mod/Fem/femtaskpanels/task_material_common.py +++ b/src/Mod/Fem/femtaskpanels/task_material_common.py @@ -278,7 +278,7 @@ class _TaskPanel: return self.card_path = self.parameterWidget.cb_materials.itemData(index) # returns whole path FreeCAD.Console.PrintMessage( - "Material card choosen:\n" + "Material card chosen:\n" " {}\n".format(self.card_path) ) self.material = self.materials[self.card_path] diff --git a/src/Mod/PartDesign/App/FeatureHole.cpp b/src/Mod/PartDesign/App/FeatureHole.cpp index 31ae47f3cb..69772c77e2 100644 --- a/src/Mod/PartDesign/App/FeatureHole.cpp +++ b/src/Mod/PartDesign/App/FeatureHole.cpp @@ -551,7 +551,7 @@ const char* Hole::ThreadClass_ISOmetricfine_Enums[] = { "4G", "4H", "5G", "5H", // ISO 965-1:2013 ISO general purpose metric screw threads - Tolerances - Part 1 // Table 1 - Fundamentral deviations for internal threads ... -// reproduced in: https://www.accu.co.uk/en/p/134-iso-metric-thread-tolerances [retrived: 2021-01-11] +// reproduced in: https://www.accu.co.uk/en/p/134-iso-metric-thread-tolerances [retrieved: 2021-01-11] const double Hole::ThreadClass_ISOmetric_data[ThreadClass_ISOmetric_data_size][2] = { // Pitch G {0.2, 0.017}, @@ -939,7 +939,7 @@ double Hole::getThreadClassClearance() { double pitch = getThreadPitch(); - // Calulate how much clearance to add based on Thread tolerance class and pitch + // Calculate how much clearance to add based on Thread tolerance class and pitch if (ThreadClass.getValueAsString()[1] == 'G') { for(unsigned int i=0; i