8:["$","$L22",null,{"documentTextVersion":{"pageTexts":["AutoCAD 3D Tutorial\n\n3D Tutorials\nAutoCAD 2009\n\nWritten by Kristen Kurland\nCopyright ÂŠ 2008\n\n-1-","AutoCAD 3D Tutorial\n\nAutoCAD 3D â€“ Chapter 1\n3D Interface\n\n-2-","AutoCAD 3D Tutorial\n1.1 Launching AutoCAD 3D\n1.\n\nChoose\n\nStart from the Windows program manager.\n\n2.\n\nChoose\n\nPrograms, Autodesk ,AutoCAD 2009.\n\nWorkspaces\nAutoCAD workspaces are sets of menus, toolbars and dockable windows\n(such as the Properties palette, DesignCenter, and the Tool palettes\nwindow) that are grouped and organized so that you can work in a\ncustom, task-oriented drawing environment.\n\n1.\n\nClick\n\nthe Workspace Switching icon.\n\n2.\n\nClick\n\n3D Modeling and OK.\n\n-3-","AutoCAD 3D Tutorial\n1.2 3D Interface\nAutoCADâ€™s 3D Interface consists of three main areas\nPanels\nAnchored palettes\nA 3D workspace\n\n-4-","AutoCAD 3D Tutorial\n1.3 3D Dashboard\nThe dashboard consists of a set of control panels organized by function.\nFor example, the top control panel contains commands that create and\nmodify 3D solids; the second control panel contains commands and\ncontrols used to navigate 3D models.\n\n1.\n\nClick on one of the panels to expand the display to show a slide-out\npanel that has additional controls.\n\nClick to\nexpand\ndashboard\npanel\n\n-5-","AutoCAD 3D Tutorial\n1.4 Viewports\n1.\n\nChoose View, Viewports, 4 Viewports.\nor\n\n2.\n\nType -VPORTS at the command prompt.\nCommand: -VPORTS\nEnter an option [Save/Restore/Delete/Join/SIngle/?/2/3/4] 4: enter\nEnter a configuration option [Horizontal/Vertical/Above/\nBelow/Left/Right] : enter\n\nYour screen will look something like the figure below with four views in one\nAutoCAD drawing.\n\n-6-","AutoCAD 3D Tutorial\n1.5 Preset 3D Viewports\n1.\n\nChoose View, Viewports, New Viewports\n\n2.\n\nClick the dropdown option for Setup and click 3D.\n\n3.\n\nChoose Four: Right as the viewport option.\n\n-7-","AutoCAD 3D Tutorial\n1.6 Named Views\n1.\n\nChoose View, Named Viewsâ€Ś\n\n2.\n\nClick the plus (+) sign beside Preset Views.\n\n3.\n\nClick NE Isometric, Set Current, Apply,and OK.\n\nTip:\nYou can also choose View, 3D Views, and any of the preset 3D views.\n\n-8-","AutoCAD 3D Tutorial\n1.7 Steering Wheel\nSteeringWheels are menus that track the cursor over the drawing\nwindow, and provide access to 2D and 3D navigation tools from a\nsingle interface.\nSteeringWheels, or “wheels,” are divided into wedges; each\nwedge contains a single navigation tool. You can start a\nnavigation tool by clicking a wedge or by clicking and dragging the\ncursor over a wedge..\n2D Navigation Wheel (Zoom & Pan)\n\nView Object Wheel – Center a model and define the pivot\npoint to use with the Orbit tool. Zoom and orbit a model.\nCenter\n\n-9-","AutoCAD 3D Tutorial\nOrbit\n\nLook\n\n- 10 -","AutoCAD 3D Tutorial\nWalk/Up/ Down\n\nRewind\n\nShortcuts\n\n- 11 -","AutoCAD 3D Tutorial\nSteering Wheel Settings\n\n- 12 -","AutoCAD 3D Tutorial\n1.8 VPOINT Command (Tripod)\nDisplays a compass and tripod for defining a view rotation. The\ncompass represents a two dimensional globe.\n1.\n\nChoose\n\nView, 3D Views, point\n\nor\n2.\n\nType VPOINT at the command\nprompt.\nCommand: vpoint\n\n3. Click\n\nRotate/<-0.614,-0.614,0.500>:\n(enter)\na point on the compass to define the viewing angle.\n\nPoint in the center\nof the compass is\nthe north pole\nMiddle ring of the\ncompass is the\nequator\n\nEntire outer ring\nis the south pole\n\nTripod\n\n- 13 -","AutoCAD 3D Tutorial\n1.9 VPOINT Command (Rotate)\nEnters a rotation angle at the viewpoint prompt.\n1.\n\nType VPOINT at the command prompt.\nCommand: vpoint\nRotate/ <-0.614,-0.614,0.500>: R (enter)\nEnter angle in XY plane from X axis <225>: 225 (enter)\nEnter angle from XY plane <30>: 15 (enter)\n\n- 14 -","AutoCAD 3D Tutorial\n1.10\n\nDDVPOINT\n1.\n\nChoose View, 3D Views, Viewpoint Preset.\nor\n\n2.\n\nType DDVPOINT at the command prompt.\nCommand: ddvpoint\n\n3.\n\nSet a viewing angle by typing the From X axis and XY Plane angle.\nor\n\n4.\n\nPick a viewing angle in the 2 graphics Left graphic = From X Axis\nRight graphic = In XY Plane\n\n5.\n\nClick OK.\n\n- 15 -","AutoCAD 3D Tutorial\n1.11 Plan View\n1.\n\nChoose View, 3D Views, Plan View the one of the following:\nCurrent UCS, World UCS, Named UCS\nor\n\n2.\n\nType PLAN at the command prompt.\nCommand: plan\nEnter an option [Current Ucs/Ucs/World] : World\n\n- 16 -","AutoCAD 3D Tutorial\n\nAutoCAD 3D â€“ Chapter 2\nThickness and Elevation\n\n- 17 -","AutoCAD 3D Tutorial\n2.1 Thickness Command\n1.\n\nBegin a new drawing using a 3D Modeling workspace.\n\n2.\n\nChoose View, Viewports, 2 Viewports.\n\n3.\n\nPress ENTER for the default of two vertical viewports.\n\n4.\n\nIn the left viewport, type PLAN and World.\n\n5.\n\nType THICKNESS at the command prompt.\nCommand: thickness\nEnter new value for THICKNESS <0.0000>: 3\n\n6.\n\nIn the plan view, draw a rectangle using in the LINE command.\n\nThe lines will have a 3D â€œthicknessâ€? that can be seen in the 3D view.\n\n- 18 -","AutoCAD 3D Tutorial\n2.2 Change Existing Thickness\n1.\n\nSelect the object whose thickness you would like to change (e.g.\none line of the rectangle you drew in 2.1.\n\n2.\n\nChoose Modify, Propertiesâ€Śor right click and choose\nPropertiesâ€Ś\n\n3.\n\nIn the Properties dialog box type a new line thickness.\n\nThe following result is a new line thickness for the selected object.\n\n- 19 -","AutoCAD 3D Tutorial\n2.3 Elevation\nStores the elevation for new objects relative to the current UCS for the\ncurrent space.\n1.\n\nType ELEVATION at the command prompt.\nCommand: elevation\nEnter new value for ELEVATION <0.0000>: 1.00\n\n2.\n\nDraw two circles at the new elevation. Note that they appear to be\nâ€œfloatingâ€? 1 unit above the ground.\n\n- 20 -","AutoCAD 3D Tutorial\n2.4 Elevation Shortcut\n1.\n\nType ELEV at the command prompt.\nCommand: elev\nSpecify new default elevation: <1.0000>: 1\nSpecify new default thickness: <3.000>: 1\n\n2.\n\nDraw a new line to see the elevation and thickness settings.\n\n- 21 -","AutoCAD 3D Tutorial\n\nAutoCAD 3D â€“ Chapter 3\nVisualizing Your Model\n\n- 22 -","AutoCAD 3D Tutorial\n\n3.1 HIDE Command\nRegenerates a three-dimensional model with hidden lines\n\n1.\n\nOpen a drawing with 3D objects and display in a 3D view.\n\n2.\n\nChoose View, Hide.\nor\n\n3.\n\nType HIDE at the command prompt.\nCommand: hide\n\n- 23 -","AutoCAD 3D Tutorial\n3.2 Visual Styles\nA visual style is a collection of settings that control the display of edges\nand shading in the viewport.\n1.\n\nOpen a drawing with 3D objects and display in a 3D view.\n\n2.\n\nChoose View, Visual Styles and one of the following style options.\n\n2D Wireframe\n\nRealistic\n\n3D Wireframe\n\nConceptual\n\n- 24 -\n\n3D Hidden","AutoCAD 3D Tutorial\n3.3 Visual Style Manager\nThe Visual Styles Manager displays sample images of the visual styles\navailable in the drawing. The selected visual style is indicated by a yellow\nborder, and its settings are displayed in the panel below the sample\nimages.\n1.\n2.\n3.\n\nChoose View, Visual Styles, Visual Styles Managerâ€Ś\nor\nType VISUALSTYLES at the command prompt.\nCommand: visualstyles\nChoose the desired option from one of those available in the\ndrawing for 2D Wireframe, 3D Wireframe, 3D Hidden, Realistic, or\nConceptual options.\n\n- 25 -","AutoCAD 3D Tutorial\n3.4 Visual Styles Panel\n\n- 26 -","AutoCAD 3D Tutorial\n3.5 Adaptive 3D Grid\nWhen you choose a shaded or 3D wireframe visual style, the grid changes from\na dotted grid to a rectangular grid. The new grid provides a better sense of a\nmodelâ€™s orientation in 3D. The rectangular grid supports perspective, can display\nmajor and minor grid lines, provides color options, and can automatically control\nthe grid density when zooming in or out (adaptive grid.) You can change the grid\nsettings using the drafting settings dialog box.\n1.\n\nChoose View, Visual Styles and one of the following options:\n3D Wireframe, 3D Hidden, Realistic, or Conceptual.\n\nChange the adaptive grid settings\n1.\n\nChoose Tools, Drafting Settings, and the Snap and Grid TAB.\n\n- 27 -","AutoCAD 3D Tutorial\n\nAutoCAD 3D â€“ Chapter 4\nZ Coordinates\n\n- 28 -","AutoCAD 3D Tutorial\n4.1 3D Coordinates\nEntering 3D Cartesian coordinates (X,Y,Z) is similar to entering 2D\ncoordinates (X,Y). In addition to specifying X and Y values, you specify a Z\nvalue.\n\n1.\n\nOpen a drawing with 3D objects and display in a 3D view.\n\n2.\n\nType 3DPoly at the command prompt.\nCommand: 3DPOLY\nSpecify start point of polyline: 1,1,0\nSpecify endpoint of line or [Undo]: 1,2,1\nSpecify endpoint of line or [Undo]: 2,2,1\nSpecify endpoint of line or [Close/Undo]: 2,1,0\nSpecify endpoint of line or [Close/Undo]: 1,1,0\n\nThe result will be the following lines that are drawn in 3D:\n\n- 29 -","AutoCAD 3D Tutorial\n4.2 Track in Z Direction\nWith AutoTrack (polar tracking and object snap tracking), you can track in\nthe Z direction as well as in the XY plane. Similarly, when Ortho mode is\nturned on, you can lock the cursor to the Z direction.\n\n1.\n\nPress F11 or click OSnap Tracking on the status bar if it is not\nalready on.\n\n2.\n\nPress F10 or click Polar Tracking on the status bar if it is not\nalready on.\n\n3.\n\nIn a 3D view, issue the LINE command and draw a line in the Z\ndirection using tracking.\n\n- 30 -","AutoCAD 3D Tutorial\n4.3 Move in Z Direction\n1.\n\nOpen a drawing with 3D objects in it.\n\n2.\n\nType MOVE at the command prompt.\nCommand: move\nSelect objects: pick object in 3D view\nSelect objects: press enter\nSpecify base point or displacement:\nSpecify second point of displacement or\n: 0,0,1 or use polar tracking to move\nthe object.\n\nbefore move\n\nafter move\n\n- 31 -","AutoCAD 3D Tutorial\n4.4 3D Point Filters\nDraws in 3D Z direction by filtering X and Y coordinates.\n1.\n\nOpen a drawing with 3D objects in it.\n\nendpoint to filter\n\n2.\n\nUse the CIRCLE command and place it using 3D point filters (.xy)\n\n3.\n\nCommand: circle\n\n4.\n\nSpecify center point for circle or [3P/2P/Ttr (tan tan radius)]: .XY\n\n5.\n\nof pick endpoint to filter\n\n6.\n\n(need Z): 1\n\n7.\n\nSpecify radius of circle or [Diameter] <0.2500>: press enter\n\n- 32 -","AutoCAD 3D Tutorial\n\nAutoCAD 3D â€“ Chapter 5\nUser Coordinate System\n\n- 33 -","AutoCAD 3D Tutorial\n5.1 UCS Icon\nThe UCS icon represents the orientation of the user coordinate system\n(UCS) axes and the location of the current UCS origin. It also represents\nthe current viewing direction relative to the XY plane. AutoCAD displays\nthe UCS icon differently for 2D, 3D and Paper Space environments.\n\n3D UCS icons\n\n1.\n2.\n\n2D UCSIcon\n\nPspace UCSICON\n\nChoose View, Display, UCS Icon.\nor\nType UCSICON at the command prompt.\nCommand: ucsicon\nEnter an option [ON/OFF/All/Noorigin/ORigin/Properties] :\nON\nOFF\nAll\nNoorigin\nOrigin\n\nDisplays the UCS icon.\nTurns off the display of the UCSICON.\nAffects the display of the UCSICON in all viewports.\nAlways displays the UCS at the lower left corner.\nShows the UCS at the 0,0,0 origin of the current UCS.\n\nProperties\n\nChanges the display properties of the UCS icons(s).\n\n- 34 -","AutoCAD 3D Tutorial\nUCS Icon Properties\n1.\n2.\n\nChoose View, Display, UCS Icon, Properties.\nor\nType UCSICON at the command prompt.\nCommand: ucsicon\nEnter an option [ON/OFF/All/Noorigin/ORigin/Properties] : P\n\n- 35 -","$23","AutoCAD 3D Tutorial\n5.3 3 Point UCS\nThe 3 Point option is one of the easiest ways to define a new UCS on a\ngiven 3D object.\n1.\n\nOpen a drawing with a simple 3D object (e.g. 3D box)\n\n2.\n\nType UCS at the command prompt.\nCommand: ucs\nEnter an option [New/Move/orthoGraphic/Prev/Restore/\nSave/Del/Apply/?/World] : N\nSpecify origin of new UCS or [ZAxis/3point/OBject/\nFace/View/X/Y/Z] <0,0,0>: 3\nSpecify new origin point <0,0,0>: pick origin\nSpecify point on positive portion of X-axis <3.53,7.73,0.00>: pick\npoint for X direction\nSpecify point on positive-Y portion of the UCS XY plane\n<2.53,8.73,0.00>: pick point for Y direction\n\nPositive Y\n\nNew 0,0,0 origin\n\n- 37 Positive X","AutoCAD 3D Tutorial\nNew UCS\n\n- 38 -","AutoCAD 3D Tutorial\n5.4 Plan UCS\nTo work in the plan view of your new UCS, use the PLAN command with\nthe current UCS option. New entities that you draw will be in relation to\nthis current UCS.\n\n1.\n\nType PLAN at the command prompt.\nCommand: plan\nEnter an option [Current ucs/Ucs/World] : press enter\n\n- 39 -","AutoCAD 3D Tutorial\n5.5 World UCS\nThe World UCS is the only UCS guaranteed to be the same in all\nAutoCAD drawings and can be used to set the UCS back to its original\nstate. This is the UCS you should use when creating Wblocks and\ninserting Wblocks.\n\n1.\n\nType UCS at the command prompt.\nCommand: ucs\nCurrent ucs name: *NO NAME*\nEnter an option [New/Move/orthoGraphic/Prev/Restore/\nSave/Del/Apply/?/World] W\n\n- 40 -","AutoCAD 3D Tutorial\n5.6 View UCS\nEstablishes a new coordinate system whose XY plane is perpendicular to\nyour viewing direction (i.e. parallel to your screen)\n\n1.\n\nType UCS at the command prompt.\nCommand: ucs\nCurrent ucs name: *NO NAME*\nEnter an option [New/Move/orthoGraphic/Prev/Restore/\nSave/Del/Apply/?/World] : N\nSpecify origin of new UCS or [ZAxis/3point/OBject/ Face/View/X/Y/Z]\n<0,0,0>: vOrigin/ZAxis/3point/\nOBject/View/X/Y/Z/Prev/Restore/Save/Del/?/:V\n\nX.X XXXXXXXXXXXXXXX\nRegenerates a three-dimensional model with hidden lines\n\n1.\n\nOpen a drawing with 3D objects and display in a 3D view.\nor\n\n2.\n\nChoose View, Hide.\n\n3.\n\nType HIDE at the command prompt.\nCommand: hide\n\n- 41 -","AutoCAD 3D Tutorial\n5.7 Dynamic UCS\nYou can use the dynamic UCS to create objects on a planar face of a 3D\nsolid without manually changing the UCS orientation.\nDuring a command, the dynamic UCS temporarily aligns the XY plane of\nthe UCS with a planar face of a 3D solid when you move the cursor over\nthe face.\nWhen the dynamic UCS is active, specified points, and drawing tools,\nsuch as polar tracking and the grid, are all relative to the temporary UCS\nestablished by the dynamic UCS. 1.\n\n1.\n\nClick the DUCS icon\n\non the status bar or press CTRL +D.\n\n2.\n\nType any draw command.\nCommand: circle\n\n3.\n\nMove the cursor to the face of the 3D object that you would like to\ndraw on.\n\n4.\n\nClick to begin drawing your new object.\n\n- 42 -","AutoCAD 3D Tutorial\n5.8 Naming and Saving a UCS\nUser coordinate systems can sometimes be complicated and it is often\nuseful to name and save them so you can quickly recall them.\n\n1.\n\nType UCS at the command prompt.\nCommand: UCS\nSpecify origin of UCS or\n[Face/NAmed/OBject/Previous/View/World/X/Y/Z/ZAxis]\n: NA\nEnter an option [Restore/Save/Delete/?]: S\nEnter name to save current UCS or [?]: LeftSide\n\n- 43 -","AutoCAD 3D Tutorial\n5.9 Restoring a UCS\nA named and saved UCS can be restored at any time.\n\n1.\n\nType UCS at the command prompt.\nCommand: UCS\nSpecify origin of UCS or\n[Face/NAmed/OBject/Previous/View/World/X/Y/Z/ZAxis]\n: NA\nEnter an option [Restore/Save/Delete/?]: R\nEnter name to save current UCS or [?]: LeftSide\n\n- 44 -","AutoCAD 3D Tutorial\n5.10 UCS Dialog Box\nDisplays and modifies defined and unnamed user coordinate systems,\nrestores named and orthographic UCSs, and specifies UCS icon and UCS\nsettings for viewports via a dialog box.\n\n1.\n\nChose Tools, Named UCS.\nor\n\n2.\n\nType UCSMAN at the command prompt.\nCommand: ucsman\n\n- 45 -","AutoCAD 3D Tutorial\n5.10 Viewcube\nThe ViewCube provides visual feedback about the current orientation\nof a model. The ViewCube can help you adjust the viewpoint of a\nmodel. The orientation shown by the ViewCube is based on the North\ndirection of the WCS for the model. The ViewCube also shows the\ncurrent UCS and allows you to restore a named UCS.\n\n- 46 -","AutoCAD 3D Tutorial\n\nAutoCAD 3D â€“ Chapter 6\n3D Orbit\n\n- 47 -","AutoCAD 3D Tutorial\n6.1 Constrained 3D Orbit\n3DORBIT activates a 3D Orbit view in the current viewport. You can view\nyour entire drawing or select one or more objects before starting the\ncommand.\nWhen 3DORBIT is active, the target of the view stays stationary and the\ncamera location, or point of view, moves around the target. However, from\nthe user's point of view, it appears as if the 3D model is turning as the\nmouse cursor is dragged. In this way, you can specify any view of the\nmodel.\n1.\n\nOpen a drawing with 3D objects.\n\n2.\n\nChoose View, Orbit, Constrained Orbit.\nor\n\n3.\n\nType 3D Orbit at the command prompt.\nCommand: 3DOrbit\n\n4.\n\nClick and drag to move your object in 3D.\n\n- 48 -","AutoCAD 3D Tutorial\n6.2 Zoom and Pan in 3D Orbit\nZoom\n1.\n2.\n\nClick with the right mouse button while in the 3D Orbit command.\nChoose Zoom Window from the pop-up menu.\n\n3.\n4.\n5.\n\nZoom to a new area of the 3D drawing.\nClick with the right mouse button while in the 3D Orbit command.\nChoose Zoom Previous or Zoom Extents from the pop-up menu.\n\nPan\n1.\n2.\n3.\n4.\n5.\n6.\n7.\n\nClick with the right mouse button while in the 3D Orbit command.\nChoose Other Navigation Modes from the pop-up menu.\nChoose Pan.\nPan to a new area of the drawing.\nClick with the right mouse button while in the 3D Orbit command.\nChoose Other Navigation Modes from the pop-up menu.\nChoose Constrained Orbit to set the mode back to orbit.\n\n- 49 -","AutoCAD 3D Tutorial\n6.3 Projection Mode\n1.\n2.\n\nClick with the right mouse button while in the 3D Orbit command.\nChoose Perspective.\nPerspective view displays objects in perspective so that all parallel\nlines converge at one point. Objects appear to recede into the\ndistance, and parts of the objects appear larger and closer to you.\nThe shapes are some what distorted when the object is very close.\nThis view correlates more closely to what your eye sees.\nParallel view displays objects so that two parallel lines in a drawing\nnever con verge at a single point. The shapes in your drawing always\nremain the same and do not appear distorted when they are closer.\n\nPerspective View\n\nParallel View\n\n- 50 -","AutoCAD 3D Tutorial\n6.4 Visual Styles\nDisplays your objects in one of the following selected styles:\n1.\n2.\n3.\n\nClick with the right mouse button while in the 3D Orbit command.\nChoose Visual Styles from the pop-up menu.\nChoose 3D Hidden, 3D Wireframe, Conceptual or Realistic.\n\n3D Hidden\n\nConceptual\n\n3D Wireframe\n\nRealistic\n\n- 51 -","AutoCAD 3D Tutorial\n6.5 Visual Aids\n1.\n2.\n3.\n\nClick with the right mouse button while in the 3D Orbit command.\nChoose Visual Aids from the pop-up menu.\nChoose Compass, Grid, or UCS Icon.\n\nCompass\n\nGrid\n\nUCS Icon\n\n- 52 -","AutoCAD 3D Tutorial\n6.6 Preset Views\nSets the 3D view while in the orbit command\n1.\n2.\n3.\n\nClick with the right mouse button while in the 3D Orbit command.\nChoose Preset Views from the pop-up menu.\nChoose one of the following standard 3D views.\n\n- 53 -","AutoCAD 3D Tutorial\n6.7 Free Orbit\n1.\n2.\n\nChoose View, Orbit, Free Orbit.\nThe 3D Orbit Arcball appears.\nClick on one of the 3D Orbit arcball locations to move the display of\nyour object(s).\n\nOutside the Arcball - Moves View about an axis that\nextends through the center (acts like twist)\n\nInside the Arcball - Allows movement in any direction\n\n- 54 -\n\nInside one of the small circles to the left/right - Rotates\naround the “Y” axis through the center.\n\nInside one of the small circles to the top/bottom - Rotates\naround the “X” axis through the center.","AutoCAD 3D Tutorial\n6.8 Continuous Orbit\n1.\n2.\n3.\n\nChoose View, Orbit, Continuous Orbit.\nClick and drag to define the direction and speed of a continuous\norbit for your object(s).\nPress ESC on the keyboard to stop the orbit.\n\n- 55 -","AutoCAD 3D Tutorial\n6.9 Other Navigational Modes\n1.\n2.\n3.\n\nClick with the right mouse button while in the 3D Orbit command.\nChoose Other Navigational Modes from the pop-up menu.\nChoose one of the following modes.\n\nAdjust Distance (4)\n\nSimulates moving the camera closer to the\nobject or farther away.\n\nSwivel (5)\n\nChanges the cursor to an arched arrow and\nsimulates the effect of swiveling the camera.\nSee 3DSWIVEL.\n\nWalk (6)\n\nChanges the cursor to a plus sign and enables\nyou to \"walk through\" a model at a fixed height\nabove the XY plane, by dynamically controlling\nthe location and target of the camera. See\n3DWALK.\n\nFly (7)\n\nChanges the cursor to a plus sign and enables\nyou to \"fly through\" a model without being\nrestricted to a fixed height above the XY plane.\nSee 3DFLY.\n\nZoom (8)\n\nChanges the cursor to a magnifying glass with\nplus (+) and minus (-) sign and simulates\nmoving the camera closer to an object or\nfarther away. Works like the Adjust Distance\noption. See 3DZOOM.\n\n- 56 -","AutoCAD 3D Tutorial\n\nAutoCAD 3D â€“ Chapter 7\n3D Navigation\n\n- 57 -","AutoCAD 3D Tutorial\n7.1 Creating a Camera\nSets a camera and target location to create and save a 3D perspective\nview of objects.\n1.\n\nOpen a drawing with 3D objects.\n\n2.\n\nChoose View, Create Camera.\nor\n\n3.\n\nType CAMERA at the command prompt.\nCommand: camera\nCurrent camera settings: Height=5.0000 Lens Length=50.0000 mm\nSpecify camera location: .xy\nof (need Z): 7\nSpecify target location: endp\nEnter an option\n[?/Name/LOcation/Height/Target/LEns/Clipping/View/eXit]: X\n\nCamera location\nusing .XY filter\nand Z height of 7\n\nCamera target\n\n- 58 -","AutoCAD 3D Tutorial\n7.2 Viewing a Camera\nOnce a camera is created, it becomes a named view in the drawing and\ncan be viewed using the Named View Manager. You can also view the\ncamera using the view option when creating the camera.\n\n1.\n\nChoose View, 3D Views, Southwest Isometric to be sure you are\nnot in an existing camera view.\n\n2.\n\nChoose View, Named Views.\n\n3.\n\nClick the plus (+) sign beside Model Views.\n\n4.\n\nClick Camera1, Set Current, Apply, and OK.\n\nView from Camera\n\n- 59 -","AutoCAD 3D Tutorial\n7.3 Camera Preview\nCamera preview is a quick and easy way to see the properties of a\ncamera before viewing from the camera.\n\n1.\n\nChoose View, 3D Views, Southwest Isometric to be sure you are\nnot in an existing camera view.\n\n2.\n\nZoom out until you see the camera in your 3D view.\n\n3.\n\nClick once on a camera in your view.\n\nThe Camera Preview dialog box will show the view from the chosen\ncamera. You can change the Visual style of this preview to 3DHidden,\n3DWireframe, Conceptual, or Realistic.\n\n- 60 -","AutoCAD 3D Tutorial\n7.4 Camera Properties\n1.\n\nIn a 3D isometric view, double click a camera.\n\n- 61 -","AutoCAD 3D Tutorial\n7.5 Displaying and Plotting a Camera\nDisplaying a Camera\n1.\n\nChoose View, Display, Cameras.\n\nPlotting a Camera\n1.\n\nIf cameras are not already displayed in the drawing, click View,\n\n2.\n3.\n\nDisplay, Cameras.\nDouble-click a camera.\nIn the Properties palette, Camera section, Plot option, click Yes or\nNo.\n\n- 62 -","AutoCAD 3D Tutorial\n7.6 Adjusting Camera Distances and Swiveling a\nCamera\nAdjust Camera Distance\n1.\n\nChoose View, Named Views.\n\n2.\n\nClick the plus (+) sign beside Model Views.\n\n3.\n\nClick Camera1, Set Current, Apply, and OK.\n\n4.\n\nChoose View,Camera, Adjust Distance.\n\n5.\n\nClick and drag to zoom in or out about the camera,\n\nSwivel a Camera\n1.\n\nChoose View, Camera, Swivel.\n\n2.\n\nClick and drag to swivel the camera,\n\n- 63 -","AutoCAD 3D Tutorial\n7.7 DView Command\nDefines parallel projection or perspective views by using a camera and\ntarget.\n1.\n\nType DVIEW at the command prompt.\nCommand: dview\nSelect objects or : pick objects\nEnter option\n[CAmera/TArget/Distance/POints/PAn/Zoom/TWist/CLip/Hide/Off/U\nndo]: PO\nSpecify target point <3.2567, 4.0405, 7.2994>: pick target\nSpecify camera point <-4.0520, -3.2436, 14.3538>: .XY\nof (need Z): 7\nEnter option\n[CAmera/TArget/Distance/POints/PAn/Zoom/TWist/CLip/Hide/Off/U\nndo]: D\nSpecify new camera-target distance <8.3066>: click and drag new\nzoom\nEnter option\n[CAmera/TArget/Distance/POints/PAn/Zoom/TWist/CLip/Hide/Off/U\nndo]:\nRegenerating model.\n\nCamera location\nusing .XY filter\nand Z height of 7\n\nCamera target\n\n- 64 -","AutoCAD 3D Tutorial\nNew DView\n\n- 65 -","AutoCAD 3D Tutorial\n7.8 Walk and Fly\nYou can simulate walking and flying through a 3D drawing.\nWhen you walk through a model, you travel along the XY plane. When you\nfly through a model, you are not constrained by the XY plane, so you\nappear to â€œflyâ€? over an area in a model.\nThe following mappings are available for walking:\nUp arrow / W key\n\nMove forward\n\nDown arrow / S key\n\nMove backward\n\nLeft arrow / A key\n\nMove left\n\nRight arrow / D key\n\nMove right\n\nDrag mouse\n\nLook around & turn\n\nF key Toggle\n\nFly mode\n\n1.\n\nOpen a drawing with 3D objects and display in a 3D view.\n\n2.\n\nCreate a camera anywhere in the drawing and set the view to that\ncamera.\n\n3.\n\nChoose View, Walk and Fly, and Walk.\nor\n\n4.\n\nType 3DWalk or 3DFky at the command prompt.\nCommand: 3Dwalk\n\n5.\n\nThe following walk and fly navigation mapping settings appear.\nBriefly look at the navigation keys, then choose close.\n\n- 66 -","AutoCAD 3D Tutorial\nThe following Position Locator dialog box will appear that you can use to\nnavigate your drawing.\n\nPress the Up, Down, Left, and Right keys on the keyboard to see how the\ncamera location moves in the drawing and Position Locator dialog box.\nMove the camera and target in the Position Locator dialog box.\nClick and drag your mouse to â€œflyâ€? through the drawing.\n\nClose the Position Locator dialog box and try walking and flying using only\nthe keys on the keyboard and mouse.\n\n- 67 -","AutoCAD 3D Tutorial\n7.9 Walk and Fly Settings\n1.\n\nChoose View, Walk and Hide, Walk and Hide Settings.\nor\n\n2.\n\nType WALKFLYSETTINGS at the command prompt.\nCommand: walkflysettings\n\n3.\n\nChoose one of the following settings from the Walk and Fly dialog\nbox. If you are working in a drawing with a large architectural scale,\nbe sure to set your drawing units to a large number, similar to the\nscale of the drawing.\n\n- 68 -","AutoCAD 3D Tutorial\n7.10 Animation Paths\n1.\n\nOpen a drawing with 3D objects and display in a 3D view and line\nor polyline representing a path for an animation\n\n2.\n\nChoose View, Motion Path Animations.\nor\n\n3.\n\nType ANIPATH at the command prompt.\nCommand: anipath\n\n4.\n\nClick Select Path under the Link camera to: option and click on the\nline or polyline path.\n\n5.\n\nClick OK to the default path name.\n\n6.\n\nClick Select Path under the Link target to: option and click on the\nline or polyline path.\n\n7.\n\nClick OK to the default path name.\n\n8.\n\nChange other animation settings such as the frames per second,\nduration, resolution, etc.\n\n- 69 -","AutoCAD 3D Tutorial\n9.\n\nChoose the Preview…button to preview your animation.\n\n10.\n\nClose the animation preview and click OK to create an animation\nfile.\n\n11.\n\nPlay your animation in a Windows or MacIntosh video review\napplication.\n\n- 70 -","AutoCAD 3D Tutorial\n7.11 3D Navigation Using the Dashboard\nRegenerates a three-dimensional model with hidden lines\n\n1.\n\nChoose Tools, Palettes, Dashboard.\nor\n\n2.\n\nType DASHBOARD at the command prompt.\nCommand: dashboard\n\n- 71 -","AutoCAD 3D Tutorial\n\nAutoCAD 3D â€“ Chapter 8\n3D Model Objects\n\n- 72 -","AutoCAD 3D Tutorial\n8.1 Wireframes\nA wireframe model is a skeletal description of a 3D object. There are no\nsurfaces in a wireframe model; it consists only of points, lines, and curves\nthat describe the edges of the object. With AutoCAD you can create\nwireframe models by positioning 2D objects anywhere in 3D space.\nAutoCAD also provides some 3D wireframe objects, such as 3D polylines\n(that can only have a CONTINUOUS linetype) and splines. Because each\nobject that makes up a wireframe model must be independently drawn\nand positioned, this type of modeling can be the most time-consuming.\n\nWireframe lines in 3D\n\n- 73 -","AutoCAD 3D Tutorial\n8.2 Surfaces\nSurface modeling is more sophisticated than wireframe modeling in that it\ndefines not only the edges of a 3D object, but also its surfaces. The\nAutoCAD surface modeler defines faceted surfaces using a polygonal\nmesh. Because the faces of the mesh are planar, the mesh can only\napproximate curved surfaces.\n\n- 74 -","AutoCAD 3D Tutorial\n8.3 Solids\nSolid modeling is the easiest type of 3D modeling to use. With the\nAutoCAD solid modeler, you can make 3D objects by creating basic 3D\nshapes: boxes, cones, cylinders, spheres, wedges, and tori (do- nuts).\nYou can then combine these shapes to create more complex solids by\njoining or subtracting them or finding their intersecting (over- lapping)\nvolume. You can also create solids by sweeping a 2D object along a path\nor revolving it about an axis.\n\n- 75 -","AutoCAD 3D Tutorial\n\nAutoCAD 3D â€“ Chapter 9\n2D Solids and 3D Faces\n\n- 76 -","AutoCAD 3D Tutorial\n9.1 2D Solid\nCreates solid-filled triangles and quadrilaterals.\n\n1.\n\nType SOLID at the command prompt.\nCommand: solid\nFirst point: P1\nSecond point: P2\nThird point: P3\nFourth point: P4\nThird point: enter\n\n- 77 -","AutoCAD 3D Tutorial\n9.2 3D Faces\n3DFACE creates a three or four sided surface anywhere in 3D space. You\ncan specify different Z coordinates for each corner point of a 3D face.\n3DFACE differs from SOLID, which creates a three- or four-sided surface\nthat is parallel to the current UCS and can be extruded.\n\n1.\n\nType 3DFACE at the command prompt.\nCommand: 3dface\nFirst point: pick\nSecond point: pick\nThird point: pick\nFourth point: pick\nThird point: enter\n\n3D Wireframe Lines\n\n3D Face\n\n- 78 -","AutoCAD 3D Tutorial\n9.3 3D Face Invisible Edge\nWith 3DFACE, you control which edges of a 3D face are visible, allowing\naccurate modeling of objects with holes. Entering i or invisible before the\nfirst point of an edge makes the edge invisible.Type 3DFACE at the\ncommand prompt.\n1.\n\nType 3DFACE at the command prompt.\nCommand: 3Dface\nFirst point: P1\nSecond point: P2\nThird point: i P3\nFourth point: P4\nThird point: i P5\nFourth point: P6\nThird point: P7\nFourth point: P8\nThird point: enter\nNOTE: You must enter an â€œiâ€? for invisible before the face is\nchosen.\n\n- 79 -","AutoCAD 3D Tutorial\n9.4 Edge Command\n1.\n\nType EDGE at the command prompt.\nCommand: edge\nSpecify edge of 3dface to toggle visibility or [Display]: pick edge\n\nPick edge\n\nSpecify edge of 3dface to toggle visibility or [Display]: d\nEnter selection method for display of hidden edges [Select/All]\n: a\n** Regenerating 3DFACE objects...done.\nSpecify edge of 3dface to toggle visibility or [Display]: press enter\n\n- 80 -","$24","AutoCAD 3D Tutorial\nEnter a vertex number or [Color/Layer] : type 6\nFace 2, vertex 5:\nEnter a vertex number or [Color/Layer] :\nFace 3, vertex 1:\nEnter a vertex number or [Color/Layer]: type 4\nFace 3, vertex 2:\n\nEnter a vertex number or [Color/Layer] : type 5\nFace 3, vertex 3:\nEnter a vertex number or [Color/Layer] : type 6\nFace 3, vertex 4:\nEnter a vertex number or [Color/Layer] :\nFace 4, vertex 1: enter\nEnter a vertex number or [Color/Layer]:\n\n- 82 -","AutoCAD 3D Tutorial\n\nAutoCAD 3D â€“ Chapter 10\nBasic 3D Surfaces\n\n- 83 -","AutoCAD 3D Tutorial\n10.0 Surface Commands (Solid Panel)\n1.\n\nClick the 3D Modeling dropdown option from the Solids panel.\n\n- 84 -","AutoCAD 3D Tutorial\n10.1 Box\n2.\n\nType AI_BOX at the command prompt.\nCommand: ai_box\nInitializing... 3D Objects loaded. Corner of box: pick point\nSpecify length of box: 4\nSpecify width of box or [Cube]: 2\nSpecify height of box: 2\nSpecify rotation angle of box about the Z axis or [Reference]: 0\n\n- 85 -","AutoCAD 3D Tutorial\n10.2 Pyramid\n1.\n\nType AI_PYRAMID at the command prompt.\nCommand: ai_pyramid\nSpecify first corner point for base of pyramid: pick point\nSpecify second corner point for base of pyramid:\n 4\nSpecify third corner point for base of pyramid: 4\nSpecify fourth corner point for base of pyramid or\n[Tetrahedron]: 4\nSpecify apex point of tetrahedron or [Top]: .xy\nof pick\n(need Z): 4\n\n- 86 -","AutoCAD 3D Tutorial\n10.3 Wedge\n1.\n\nType AI_WEDGE at the command prompt.\nCommand: ai_wedge\nSpecify corner point of wedge: pick point\nSpecify length of wedge: 4\nSpecify width of wedge: 2\nSpecify height of wedge: 2\nSpecify rotation angle of wedge about the Z axis: 0\n\n- 87 -","AutoCAD 3D Tutorial\n10.4 Dome\n1.\n\nType AI_DOME at the command prompt.\nCommand: ai_dome\nSpecify center point of dome: pick point\nSpecify radius of dome or [Diameter]: 3\nEnter number of longitudinal segments for surface of dome <16>:\n20\nEnter number of latitudinal segments for surface of dome\n<8>: 10\n\n- 88 -","AutoCAD 3D Tutorial\n10.5 Sphere\n1.\n\nType AI_SPHERE at the command prompt.\nCommand: ai_sphere\nSpecify center point of sphere: pick point\nSpecify radius of sphere or [Diameter]: 3\nEnter number of longitudinal segments for surface of sphere <16>:\n25\nEnter number of latitudinal segments for surface of sphere <16>: 25\n\n- 89 -","AutoCAD 3D Tutorial\n10.6 Cone\n1.\n\nType AI_CONE at the command prompt.\nCommand: ai_cone\nSpecify center point for base of cone: pick point\nSpecify radius for base of cone or [Diameter]: 2\nSpecify radius for top of cone or [Diameter] <0>: 5\nSpecify height of cone: 3\nEnter number of segments for surface of cone <16>:\nenter\n\n- 90 -","AutoCAD 3D Tutorial\n10.7 Torus\n1.\n\nType AI_TORUS at the command prompt.\nCommand: ai_torus\nSpecify center point of torus: pick point\nSpecify radius of torus or [Diameter]: 6\nSpecify radius of tube or [Diameter]: 1\nEnter number of segments around tube circumference\n<16>: enter\nEnter number of segments around torus circumference\n<16>: enter\n\n- 91 -","AutoCAD 3D Tutorial\n10.8 Dish\n1.\n\nType AI_DISH at the command prompt.\nCommand: ai_dish\nSpecify center point of dish: pick point\nSpecify radius of dish or [Diameter]: 3\nEnter number of longitudinal segments for surface of dish\n<16>: 20\nEnter number of latitudinal segments for surface of dish\n<8>: 15\n\n- 92 -","AutoCAD 3D Tutorial\n10.9 Mesh\n1.\n\nType ai_mesh at the command prompt.\nCommand: ai_mesh\nInitializing... 3D Objects loaded. Specify first corner point of mesh:\n1,1,1\nSpecify second corner point of mesh: 4,1,1\nSpecify third corner point of mesh: 4,4,2\nSpecify fourth corner point of mesh: 1,4,1\nEnter mesh size in the M direction: 20\nEnter mesh size in the N direction: 10\n\n- 93 -","AutoCAD 3D Tutorial\n\nAutoCAD 3D â€“ Chapter 11\nComplex Surfaces\n\n- 94 -","AutoCAD 3D Tutorial\n11.1 Revolved Surfaces\nRegenerates a three-dimensional model with hidden lines\n\n1.\n\nType Revsurf at the command prompt.\nCommand: revsurf\nCurrent wire frame density: SURFTAB1=6 SURFTAB2=6\nSelect object to revolve: pick path curve\nSelect object that defines the axis of revolution: pick line\nSpecify start angle <0>: enter\nSpecify included angle (+=ccw, -=cw) <360>: enter\n\n- 95 -","AutoCAD 3D Tutorial\n11.2 Surftab Variables\nSets the number of tabulations for both directions to be generated for\nRULESURF and TABSURF. Also sets the mesh density in ROTATE3D\nthe M direction for REVSURF and EDGESURF commands.\n1.\n\n2.\n\nType Surftab1 at the command prompt.\nCommand: surftab1\nEnter new value for SURFTAB1 <6>: 30\nType Surftab2 at the command prompt.\nCommand: surftab2\nEnter new value for SURFTAB2 <6>: 30\n\n3.\n\nType Revsurf at the command prompt.\nCommand: revsurf\nCurrent wire frame density: SURFTAB1=30 SURFTAB2=30\nSelect object to revolve: pick path curve\nSelect object that defines the axis of revolution: pick line\nSpecify start angle <0>: enter\nSpecify included angle (+=ccw, -=cw) <360>: enter\n\n- 96 -","AutoCAD 3D Tutorial\n11.3 Tabulated Surfaces\n1.\n\nType TABSURF at the command prompt.\nCommand: tabsurf\nSelect object for path curve: Select object for direction vector:\n\n- 97 -","AutoCAD 3D Tutorial\n11.4 Ruled Surfaces\n1.\n\nType RULESURF at the command prompt.\nCommand: rulesurf\nCurrent wire frame density: SURFTAB1=6\nSelect first defining curve: P1\nSelect second defining curve: P2\n\n- 98 -","AutoCAD 3D Tutorial\n11.5 Edge Surfaces\nRegenerates a three-dimensional model with hidden lines\n\n1.\n\nType EDGESURF at the command prompt.\nCommand: edgesurf\nCurrent wire frame density: SURFTAB1=20 SURFTAB2=10\nSelect object 1 for surface edge: P1\nSelect object 2 for surface edge: P2\nSelect object 3 for surface edge: P3\nSelect object 4 for surface edge: P4\n\n- 99 -","AutoCAD 3D Tutorial\n11.6 Helix\nCreates a 2D or 3D spiral.\n\n1.\n\nBegin a new drawing.\n\n2.\n\nChoose Draw, Helix.\nor\n\n3.\n\nType HELIX at the command prompt.\nCommand: helix\nNumber of turns = 3.0000\n\nTwist=CCW\n\nSpecify center point of base: pick point\nSpecify base radius or [Diameter] <1.0000>: enter or drag and\npick\nSpecify top radius or [Diameter] <11.0776>: enter or drag and\npick\nSpecify helix height or [Axis endpoint/Turns/turn Height/tWist]\n<1.0000>: enter or drag and pick\n\n- 100 -","AutoCAD 3D Tutorial\n\nAutoCAD 3D â€“ Chapter 12\nCreating Solids\n\n- 101 -","AutoCAD 3D Tutorial\n12.1 Solid Primitives\nSolid primitives can easily be drawn from both the Draw pulldown menu\nand from Autodeskâ€™s dashboard.\n\n1.\n\nChoose Draw, Modeling, and one of the following solid primitives.\n\nor\n2.\n\nChoose the solid primitive from AutoCADâ€™s Dashboard.\n\nor\n3.\n\nChoose the solid primitive from the 3D Modeling panel.\n\n- 102 -","AutoCAD 3D Tutorial\n12.2 Polysolid Command\nWith the POLYSOLID command, you can convert an existing line, 2D\npolyline, arc, or circle to a solid with a rectangular profile. A polysolid can\nhave curved segments, but the profile is always rectangular by default.\n\n1.\n\nOpen a drawing with a closed 2D polyline and display in a 3D view.\n\n2.\n\nChoose Draw, Modeling, Polysolid.\nor\n\n3.\n\nType POLYSOLID at the command prompt.\nCommand: polysolid\nSpecify start point or [Object/Height/Width/Justify]