Verfügbarkeit: CAD CAE descriptive geometry

CAD CAE descriptive geometry:

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1. Verfasser:	Ryan, Daniel L. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton u.a. CRC Press 1992
Schlagworte:	Datenverarbeitung Computer-aided design Computer-aided engineering Geometry, Descriptive > Data processing
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturverz. S. 187 - 204
Beschreibung:	IX, 209 S. graph. Darst.
ISBN:	0849342732

Internformat

MARC


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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE.................................................................... IX 1 DESCRIPTIVE GEOMETRY CONVENTIONS ............................ 1 1.1 DESCRIPTIVE GEOMETRY HISTORY ................................... 1 1.2 DEFINITIONS ....................................................... 2 1.3 ABBREVIATIONS .................................................... 2 1.4 NOTATIONS ........................................................ 3 1.5 SYSTEM OF MEASUREMENT ......................................... 4 1.6 SPACE COORDINATION .............................................. 5 1.7 PROJECTIONS....................................................... 5 1.8 GEOMETRY CONVENTIONS .......................................... 7 1.9 POINTS IN SPACE .................................................. 8 1.10 DISTANCE BETWEEN POINTS ......................................... 9 1.11 DIRECTION OF LINES ............................................... 9 1.12 PARAMETRIC EQUATIONS OF LINES .................................. 10 1.13 POINT AND LINE DEFINITION............. 10 1.14 PLANE DEFINITION ................................................ 11 1.15 SOLID DEFINITION................................................. 11 1.16 POINT / LINE / PLANE RELATIONSHIPS ................................ 11 1.17 POINT/LINE/PLANE ANALYSIS ..................................... 11 1.18 MEASUREMENT OF PLANE SURFACES ................................ 12 1.19 PLANES AND SOLIDS ............................................... 12 1.20 DEVELOPMENT AND INTERSECTIONS ................................. 13 1.21 CHAPTER PROBLEMS ............................................... 13 2 POINT AND LINE DEFINITION .......................................14 2.1 POINT AND LINE RELATIONSHIPS ................................... 14 2.2 PLANES OF PROJECTION ............................................ 14 2.3 PROJECTIONS OF A POINT........................................... 15 2.4 LINE OF SIGHT FOR A POINT ....................................... 15 2.5 LOCATION OF POINTS .............................................. 16 2.6 LINES ........................................................... 16 2.7 OBLIQUE LINES .................................................. 18 2.8 PRINCIPAL LINES ................................................. 19 2.9 LOCATION OF LINES............................................... 19 2.10 LOCATION OF POINTS AND LINES ................................... 19 2.11 PARALLEL LINES ................................................... 21 2.12 PARALLEL PROJECTION .............................................. 22 III IV CONTENTS 2.13 PERPENDICULAR LINES ............................................ 22 2.14 GEOMETRIC CHARACTERISTICS OF A LINE ............................ 22 2.15 LINES PERPENDICULAR TO F OR V .................................. 23 2.16 LINES PERPENDICULAR TO P ....................................... 25 2.17 LINES PARALLEL TO P INCLINED TO H OR V .......................... 25 2.18 LINES PARALLEL TO H INCLINED TO P OR V .......................... 25 2.19 LINES PARALLEL TO V INCLINED TO H OR P .......................... 28 2.20 LINES INCLINED TO HVP .......................................... 28 2.21 CHAPTER PROBLEMS............................................... 28 3 PLANE DEFINITION....................................................29 3.1 PLANES OF PROJECTION OR TRACES ON COORDINATE PLANES ........... 29 3.2 H AND V TRACE INTERSECTIONS .................................... 31 3.3 P TRACE INTERSECTIONS ........................................... 32 3.4 PLANES PARALLEL TO H ............................. 32 3.5 PLANES PARALLEL TO P ............................................~32 3.6 PLANES PARALLEL TO V ............................................. 33 3.7 PLANES PERPENDICULAR TO H AND INCLINED TO V ................... 34 3.8 PLANES PERPENDICULAR TO V AND INCLINED TO H .... ............... 34 3.9 PLANE PARALLEL TO BL AND INCLINED TO H AND V ............... 34 3.10 PLANE INCLINED TO H, V AND BL ............. 34 3.11 SINGLE LINE NOTATION FOR PLANES .......... 35 3.12 CHAPTER PROBLEMS................................. 36 4 SOLID DEFINITION ....................................................38 4.1 CONCEPTS OF SOLID DEFINITION ................................... 38 4.2 INFORMATION STRUCTURES FOR SOLIDS ............................... 39 4.3 SOLID ENTITIES ......................... 39 4.4 SOLID GENERATION................................................ 41 4.5 GEOMETRIC STRUCTURES ........................................... 42 4.6 PRIMITIVE STRUCTURES ............................................ 43 4.7 PRIMITIVE SYMBOLS .............................................. 45 4.8 INTERPOLATIVE STRUCTURES ......................................... 47 4.9 ARC INTERPOLATION ............................................... 50 4.10 CUBIC INTERPOLATION ............................................. 52 4.11 APPROXIMATE INTERPOLATIONS ..................................... 52 4.12 GENERATIVE STRUCTURES ........... 52 4.13 SPECIAL STRUCTURES ............................... 55 4.14 POINT SET STRUCTURES ........................ 60 4.15 REPLICATIVE STRUCTURES .......................................... 61 4.16 TOPOLOGICAL STRUCTURES .......................................... 61 4.17 CHAPTER PROBLEMS................................ 61 5 SIMPLE POINT/LINE/PLANE RELATIONSHIPS .....................69 5.1 DETERMINE THE PROJECTIONS OF A LINE THROUGH A GIVEN POINT ____ 69 5.2 DETERMINE LINE PROJECTION ...................................... 70 CONTENTS V 5.3 DETERMINE POINT PROJECTIONS ON A LINE ......................... 71 5.4 FIND THE HVP PIERCING POINTS OF A COORDINATE MODEL .......... 71 5.5 DISPLAY A PLANE ................................................. 72 5.6 DISPLAY LINE IN A PLANE ........................................ 73 5.7 DISPLAY POINT IN A PLANE ........................................ 75 5.8 DETERMINE THE TRACES OF A PLANE DISPLAYED BY INTERSECTING LINES............................................... 75 5.9 DISPLAY THE TRACES OF A PLANE BY POINT AND LINE ............... 75 5.10 DISPLAY THE TRACES OF A PLANE BY THREE POINTS ................. 78 5.11 DISPLAY LINES PARALLEL TO PLANES ................................ 79 5.12 DISPLAY PLANES PARALLEL TO PLANES ............................... 80 5.13 DISPLAY LINE PARALLEL TO PLANE AND LINE ........................ 80 5.14 DISPLAY LINE PARALLEL TO PLANE THROUGH A POINT ................. 81 5.15 DISPLAY PLANE PARALLEL TO TWO LINES ............................ 81 5.16 DISPLAY PLANE PARALLEL TO PLANE THROUGH A POINT ................ 84 5.17 DISPLAY LINES PERPENDICULAR TO PLANES .......................... 85 5.18 DISPLAY PLANE PERPENDICULAR TO PLANE ........................... 85 5.19 DISPLAY PLANE PERPENDICULAR TO LINE ............................ 86 5.20 DETERMINE DISPLAY PLANE, POINT, AND PLANE............... 89 5.21 DISPLAY INTERSECTION OF LINES ................................... 89 5.22 DISPLAY INTERSECTION OF LINE AND PLANE .......... 92 5.23 DISPLAY INTERSECTION OF PLANE AND PLANE ........................ 92 5.24 CHAPTER PROBLEMS................... 95 6 ADVANCED POINT/LINE/PLANE ANALYSIS ................... 102 6.1 REVOLVE A POINT ABOUT A LINE...................... 102 6.2 TRUE LENGTH OF A LINE ............ 103 6.3 DISTANCE BETWEEN A POINT AND A PLANE ......................... 104 6.4 DISTANCE BETWEEN A POINT AND A LINE .......................... 106 6.5 DISTANCE BETWEEN PARALLEL LINES ............................... 107 6.6 DISTANCE BETWEEN PARALLEL PLANES .............................. 108 6.7 COMMON PERPENDICULAR BETWEEN TWO LINES ................... 110 6.8 BISECTOR OF AN ANGLE ........................... 110 6.9 TRUE SIZE AND SHAPE OF A PLANE ............................... ILL 6.10 PLANE LOCATION ...................... ILL 6.11 LINE AND PLANE LOCATION ....................................... ILL 6.12 PLANE AND PLANE LOCATION...................................... 112 6.13 CHAPTER PROBLEMS.............................................. 114 7 APPLICATIONS FOR POINT, LINE, AND PLANE MEASUREMENTS.................................................... 116 7.1 REVOLVE A POINT ABOUT A LINE .................................. 116 7.2 ANGLE OF AN OBLIQUE LINE ..................................... 116 7.3 ANGLE BETWEEN A LINE AND BL ................................. 116 7.4 ANGLE BETWEEN TWO LINES ..................................... 117 7.5 ANGLE BETWEEN LINE/PLANE .................................... 117 VI CONTENTS 7.6 ANGLE BETWEEN TWO PLANES .................................... 121 7.7 AREA OF A PLANE................................................ 121 7.8 VOLUME OF A SOLID ............................................. 121 7.9 DISPLAY SIMPLE SOLIDS ......................................... 122 7.10 TWO-SURFACE SOLIDS ............................................ 124 7.11 THREE-SURFACE SOLIDS .......................................... 124 7.12 MULTI-SURFACE SOLIDS ........................................... 126 7.13 DISPLAY SOLIDS ON PLANES ...................................... 126 7.14 DISPLAY PLANES ON PLANES ...................................... 127 7.15 CHAPTER PROBLEMS.............................................. 127 8 PLANES AND SOLIDS................................................ 130 8.1 PLANE CLASSIFICATION ............................................ 130 8.2 SOLID CLASSIFICATION .................. 130 8.3 PROJECTION OF PLANES ........................................... 132 8.4 CYLINDERS ...................................................... 133 8.5 PROJECTING CYLINDERS ........................................... 134 8.6 CONES.......................................................... 134 8.7 PROJECTING CONES .............................................. 136 8.8 GEOMETRIC CONES .............................................. 136 8.9 DOUBLE-CURVED SURFACES ................. 138 8.10 HELIX .......................................... 138 8.11 CONVOLUTE ..................................................... 139 8.12 HELICAL CONVOLUTE ............................................. 140 8.13 HELICOID ....................................................... 140 8.14 HYPERBOLIC PARABOLOID ......................................... 142 8.15 CONOID ........................................................ 142 8.16 CYLINDROID ..................................................... 144 8.17 HYPERBOLOID ................................................... 144 8.18 SPHERE ......................................................... 144 8.19 ELLIPSOID ....................................................... 146 8.20 TORUS .......................................................... 146 8.21 CHAPTER PROBLEMS.............................................. 146 9 TANGENT PLANES AND SOLIDS .................................... 148 9.1 PLANES TANGENT TO A SOLID...................................... 148 9.2 SINGLE-CURVED SURFACES................... 148 9.3 TANGENT PLANES THROUGH A POINT................................ 148 9.4 DISPLAY CONSTRUCTION FOR CONES ........................... 150 9.5 TANGENT PLANE/EXTERNAL POINT ................... 150 9.6 TANGENT PLANE/EXTEMAL LINE .................................. 152 9.7 PLANE/LINE AND CYLINDER ...................................... 152 9.8 PLANE/LINE AND ANGLE ...................................... 154 9.9 DOUBLE-CURVED SURFACES ....................................... 155 9.10 TANGENT PLANE THROUGH A POINT................................. 155 CONTENTS V 9.11 TANGENT PLANE / EXTERNAL POINT ................................. 155 9.12 CHAPTER PROBLEMS .............................................. 159 10 INTERSECTION OF PLANES AND SOLIDS............................ 162 10.1 CUTTING PLANE METHOD ......................................... 162 10.2 VISIBILITY ...................................................... 162 10.3 PLANE AND CONE................................................ 165 10.4 PLANE OF INTERSECTION: CONE .................................... 165 10.5 INTERSECTION: CYLINDER............................. 166 10.6 INTERSECTION ANGLE: CONE ...................................... 166 10.7 INTERSECTION ANGLE: SPHERE..................................... 167 10.8 INTERSECTION: CYLINDER AND CONE ............................... 167 10.9 INTERSECTION OF CYLINDERS ...................................... 172 10.10 INTERSECTION: EQUAL DIAMETER CYLINDERS ........................ 172 10.11 INTERSECTION: UNEQUAL DIAMETER CYLINDERS ..................... 173 10.12 ANGULAR INTERSECTIONS .......................................... 174 10.13 INTERSECTION: ANGULAR CONES AND CYLINDERS .................... 174 10.14 INTERSECTION: ANGULAR CONES AND CONES ....................... .. 175 10.15 CHAPTER PROBLEMS.......................................... 177 11 DEVELOPMENT OF SOLID SURFACES.................. ............ 178 11.1 LAYOUT METHOD ................................................ 178 11.2 APPROXIMATION TECHNIQUES ..........^, X ...................* 178 11.3 DEVELOPMENT OF A CYLINDER ............. ..................... 181 11.4 OBLIQUE CYLINDER DEVELOPMENT ............ 181 11.5 RIGHT CYLINDER DEVELOPMENT ..... 182 11.6 CONE DEVELOPMENT .............................. 182 11.7 TRUNCATED CONE DEVELOPMENT ................................. 185 11.8 OBLIQUE CONE DEVELOPMENT .... 185 11.9 CHAPTER PROBLEMS.............................................. 185 12 DESCRIPTIVE GEOMETRY APPLICATIONS......................... 187 12.1 SAMPLE APPLICATIONS ...... 187 12.2 TOWARDS GENERATION THEORY OF FRESHMAN GRAPHIC READING ERROR .............................................* 187 12.3 APPLICATION OF MULTIDIMENSIONAL DESCRIPTIVE GEOMETRY TO PHASE DIAGRAM REPRESENTATION OF MULTICOMPONENT METAL SYSTEM ...................... 188 12.4 PROCEEDINGS OF THE THIRD INTERNATIONAL CONFERENCE ON ENGINEERING GRAPHICS AND DESCRIPTIVE GEOMETRY .............. 189 12.5 FUNDAMENTAL IDEAS FOR COMPUTER-SUPPORTED DESCRIPTIVE GEOMETRY ...................................................... 192 12.6 LOCALIZED INTERSECTIONS COMPUTATION FOR SOLID MODELLING WITH STRAIGHT HOMOGENEOUS GENERALIZED CYLINDERS ................. 193 12.7 GRAPHIC INTERACTION IN SOLIDS MODELLING ....................... 193 VIII CONTENTS 12.8 REPRESENTATION OF STRAIGHT LINES BY HOMOGENEOUS 6-TUPLES AND GEOMETRICAL TRANSFORMATIONS .................................. 194 12.9 FUNDAMENTAL IDEAS FOR COMPUTER-SUPPORTED DESCRIPTIVE GEOMETRY ...................................................... 194 12.10 THE MATHEMATICAL CALCULATIONS INVOLVED IN PROGRAMMING WITH LOGO TO DERIVE SOLUTIONS TO DESCRIPTIVE GEOMETRY PROBLEMS ...................................................... 194 12.11 DESCRIPTIVE GEOMETRY AND ENGINEERING DRAWING EDUCATION USING CADAM ................................................ 195 12.12 COMBINING DESCRIPTIVE AND COMPUTATIONAL GEOMETRY ......... 195 12.13 INSTRUCTIONAL MODULES IN DESCRIPTIVE GEOMETRY................ 196 12.14 DESCRIPTIVE GEOMETRY OF THE CELESTIAL SPHERE ................. 196 12.15 GEOMETRIC MODELING OF THREE-DIMENSIONAL OBJECTS IN AUTOMATED PLANNING SYSTEMS ............ 197 12.16 COMPUTER GRAPHICS AND TEACHING DESCRIPTIVE GEOMETRY ..... L97 12.17 INSTRUCTIONAL MODULES IN DESCRIPTIVE GEOMETRY................ 198 12.18 THE APPLICATION OF DESCRIPTIVE GEOMETRY IN THE DETERMINATION OF THE RADIATION ANGLE FACTOR .................. 198 12.19 COMPUTER AIDED INSTRUCTION OF DESCRIPTIVE GEOMETRY ......... 199 12.20 APPLICATION OF COMPUTER GRAPHICS FOR DESCRIPTIVE GEOMETRY ... 199 12.21 ALGORITHM FOR DETERMINING THE INTERSECTION OF TWO SIMPLE POLYHEDRA ........................................ 200 12.22 ON THE CONDITION OF EQUALITY BETWEEN A SPATIAL ANGLE CONSISTING OF TWO OBLIQUE LINES AND ITS PROJECTIVE ANGLE ____ 200 12.23 COMPUTER AIDED DESIGN AND DESCRIPTIVE GEOMETRY FOR SCHOOL CHILDREN ............................................... 201 12.24 CONSTRUCTIVE GEOMETRY IN THREE DIMENSIONS FOR COMPUTER-AIDED DESIGN ....................................... 201 12.25 ON AN EDUCATIONAL METHOD FOR COMPUTER GRAPHICS INTRODUCED INTO DESCRIPTIVE GEOMETRY ......................... 202 12.26 SET MEMBERSHIP CLASSIFICATION: A UNIFIED APPROACH TO GEOMETRIC INTERSECTION PROBLEMS .............................. 202 12.27 DESCRIPTIVE GEOMETRY*IT CAN PROVIDE THE SOLUTION TO SOME DESIGN PROBLEMS ........................................ 203 12.28 A MICROPROCESSOR SYSTEM TO HELP TEACH DESCRIPTIVE GEOMETRY ......................................... 203 12.29 SUGGESTIONS FOR THE APPLICATION OF A PLOTTER IN DESCRIPTIVE GEOMETRY ................ 204 12.30 COMPUTER EXERCISES IN ENGINEERING GRAPHICS .................. 204 INDEX ............................................. 205
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spelling	Ryan, Daniel L. Verfasser aut CAD CAE descriptive geometry Daniel L. Ryan Boca Raton u.a. CRC Press 1992 IX, 209 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Literaturverz. S. 187 - 204 Datenverarbeitung Computer-aided design Computer-aided engineering Geometry, Descriptive Data processing HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=003888377&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Ryan, Daniel L. CAD CAE descriptive geometry Datenverarbeitung Computer-aided design Computer-aided engineering Geometry, Descriptive Data processing
title	CAD CAE descriptive geometry
title_auth	CAD CAE descriptive geometry
title_exact_search	CAD CAE descriptive geometry
title_full	CAD CAE descriptive geometry Daniel L. Ryan
title_fullStr	CAD CAE descriptive geometry Daniel L. Ryan
title_full_unstemmed	CAD CAE descriptive geometry Daniel L. Ryan
title_short	CAD CAE descriptive geometry
title_sort	cad cae descriptive geometry
topic	Datenverarbeitung Computer-aided design Computer-aided engineering Geometry, Descriptive Data processing
topic_facet	Datenverarbeitung Computer-aided design Computer-aided engineering Geometry, Descriptive Data processing
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