debuglogdlg.lbl.Stacktrace = Stack trace:
+! MotorChooserDialog
+MotorChooserDialog.title = Select a rocket motor
+
! Edit Motor configuration dialog
edtmotorconfdlg.but.removemotor = Remove motor
edtmotorconfdlg.but.Selectmotor = Select motor
! Custom expression panel
customExpressionPanel.but.NewExpression = New expression
+customExpressionPanel.but.ttip.NewExpression = Add a new custom expression
+customExpressionPanel.but.Import = Import
+customExpressionPanel.but.ttip.Import = Import custom expressions from another .ork file
customExpressionPanel.lbl.UpdateNote = You must run the simulation before data will be available for plotting.
customExpressionPanel.lbl.CalcNote = Expressions will be calculated in the order shown.
-customExpressionPanel.lbl.CustomExpressions = Custom Expressions :
+customExpressionPanel.lbl.CustomExpressions = Custom Expressions
customExpression.Units.but.ttip.Remove = Remove this expression
customExpression.Units.but.ttip.Edit = Edit this expression
customExpression.Units.but.ttip.MoveUp = Move expression up in calculation order
customExpression.Units.but.ttip.MoveDown = Move expression down in calculation order
+
! Custom expression builder window
ExpressionBuilderDialog.title = Expression Builder
ExpressionBuilderDialog.InsertVariable = Insert Variable
Operator.plus = Addition
Operator.minus = Subtraction
Operator.star = Multiplication
-Operator.div = Divison
+Operator.div = Division
Operator.mod = Modulo
Operator.pow = Exponentiation
Operator.abs = Absolute value
-Operator.ceil = Ceiling (next integer value
-Operator.floor = Floor (previous integer value
+Operator.ceil = Ceiling (next integer value)
+Operator.floor = Floor (previous integer value)
Operator.sqrt = Square root
Operator.cbrt = Cubic root
Operator.exp = Euler\'s number raised to the value (e^x)
Operator.asin = Arc sine
Operator.acos = Arc cosine
Operator.atan = Arc tangent
-Operator.hsin = Hyerbolic sine
+Operator.hsin = Hyperbolic sine
Operator.hcos = Hyperbolic cosine
Operator.htan = Hyperbolic tangent
+Operator.log10 = Base 10 logarithm
+Operator.round = Round to nearest integer value
+Operator.random = Random number between zero and given value
+Operator.expm1 = The same as exp(x)-1, but more accurate for small x
+Operator.mean = The arithmetic mean of a given range
+Operator.min = The minimum value in a given range
+Operator.max = The maximum value in a given range
+Operator.var = The variance of a given range
+Operator.stdev = The standard deviation of a given range
+Operator.rms = The root-mean-squared value of a given range
+Operator.lclip = Clips a value (1st parameter) to be no less than a given value (2nd parameter)
+Operator.uclip = Clips a value (1st parameter) to be no greater than a given value (2nd parameter)
+Operator.binf = Gives the fraction of values in a given range (1st parameter) inside a bin with given lower (2nd parameter) and upper (3rd parameter) bounds
+Operator.trapz = Integrates the given range using trapezoidal integration
+Operator.tnear = Find the time corresponding to the point in a range (1st parameter) nearest to a given value (2nd parameter)
! MotorPlot
MotorPlot.title.Motorplot = Motor plot
main.menu.analyze.componentAnalysis.desc = Analyze the rocket components separately
main.menu.analyze.optimization = Rocket optimization
main.menu.analyze.optimization.desc = General rocket design optimization
+main.menu.analyze.customExpressions = Custom expressions
+main.menu.analyze.customExpressions.desc = Define new flight data types by writing custom mathematical expressions
main.menu.help = Help
main.menu.help.desc = Information about OpenRocket
! Translate here all material database
!
+Material.CUSTOM = Custom
+
! Material database
+Databases.materials.types.Bulk = Bulk
+Databases.materials.types.Line = Line
+Databases.materials.types.Surface = Surface
+
! BULK_MATERIAL
Databases.materials.Acrylic = Acrylic
Databases.materials.Aluminum = Aluminum
Shape.Ellipsoid.desc1 = An ellipsoidal nose cone has a profile of a half-ellipse with major axes of lengths 2×<i>Length</i> and <i>Diameter</i>.
Shape.Ellipsoid.desc2 = An ellipsoidal transition has a profile of a half-ellipse with major axes of lengths 2×<i>Length</i> and <i>Diameter</i>. If the transition is not clipped, then the profile is extended at the center by the corresponding radius.
Shape.Powerseries = Power series
-Shape.Powerseries.desc1 = A power series nose cone has a profile of <i>Radius</i> × (<i>x</i> / <i>Length</i>)<sup><i>k</i></sup> where <i>k</i> is the shape parameter. For <i>k</i>=0.5 this is a <b>\u00BD-power</b> or <b>parabolic</b> nose cone, for <i>k</i>=0.75 a <b>\u00BE-power</b>, and for <i>k</i>=1 a <b>conical</b> nose cone.
-Shape.Powerseries.desc2 = A power series transition has a profile of <i>Radius</i> × (<i>x</i> / <i>Length</i>)<sup><i>k</i></sup> where <i>k</i> is the shape parameter. For <i>k</i>=0.5 the transition is <b>\u00BD-power</b> or <b>parabolic</b>, for <i>k</i>=0.75 a <b>\u00BE-power</b>, and for <i>k</i>=1 <b>conical</b>.
+Shape.Powerseries.desc1 = A power series nose cone has a profile of <i>Radius</i> × (<i>x</i> / <i>Length</i>)<sup><i>k</i></sup> where <i>k</i> is the shape parameter. For <i>k</i>=0.5 this is a <b>\u00bd-power</b> or <b>parabolic</b> nose cone, for <i>k</i>=0.75 a <b>\u00be-power</b>, and for <i>k</i>=1 a <b>conical</b> nose cone.
+Shape.Powerseries.desc2 = A power series transition has a profile of <i>Radius</i> × (<i>x</i> / <i>Length</i>)<sup><i>k</i></sup> where <i>k</i> is the shape parameter. For <i>k</i>=0.5 the transition is <b>\u00bd-power</b> or <b>parabolic</b>, for <i>k</i>=0.75 a <b>\u00be-power</b>, and for <i>k</i>=1 <b>conical</b>.
Shape.Parabolicseries = Parabolic series
Shape.Parabolicseries.desc1 = A parabolic series nose cone has a profile of a parabola. The shape parameter defines the segment of the parabola to utilize. The shape parameter 1.0 produces a <b>full parabola</b> which is tangent to the body tube, 0.75 produces a <b>3/4 parabola</b>, 0.5 procudes a <b>1/2 parabola</b> and 0 produces a <b>conical</b> nose cone.
Shape.Parabolicseries.desc2 = A parabolic series transition has a profile of a parabola. The shape parameter defines the segment of the parabola to utilize. The shape parameter 1.0 produces a <b>full parabola</b> which is tangent to the body tube at the aft end, 0.75 produces a <b>3/4 parabola</b>, 0.5 procudes a <b>1/2 parabola</b> and 0 produces a <b>conical</b> transition.
ShockCord.ShockCord = Shock cord
! Bulkhead
Bulkhead.Bulkhead = Bulkhead
+! CenteringRing
+CenteringRing.CenteringRing = Centering ring
+! EngineBlock
+EngineBlock.EngineBlock = Engine block
+! Streamer
+Streamer.Streamer = Streamer
+! Sleeve
+Sleeve.Sleeve = Sleeve
!Rocket
Rocket.motorCount.Nomotor = [No motors]