introduction to autocad 2010chapter 13 exercise 2 1. open autocad 2010 with a double-click on its...

Introduction to AutoCAD 2010Alf Yarwood

Chapter 13 Exercise 11. Open AutoCAD 2010 with a double-click on its shortcut icon in the Windows desktop.2. Open the template acadiso3D.dwt.

3. Left-click New in the View/Viewports panel.

4. The Viewports dialog appears. In the Standard viewports list pick Three: Right. Make sure that in theSetup popup list 3D is selected.

5. Left-click the OK button of the dialog. The dialog disappears from screen and the AutoCAD window showsa Three: Right viewports setup.

6. Left-click in the Top (bottom left) viewport to make it active.

Material accompanying Introduction to AutoCAD 2010, ISBN 978-1-85617-868-6. Copyright © 2009, AlfYarwood. Published by Elsevier Ltd. All rights reserved.

7. Left-click the Cylinder tool icon in the Home/3D Modeling panel. Thecommand line shows:

Command: _cylinderSpecify center point for base of cylinder or [3P/2P/Ttr/Elliptical] <0,0,0>: pick a central pointSpecify radius for base of cylinder or [Diameter]: enter60 right-clickSpecify height of cylinder or [2Point/Axis endpoint]: enter150 right-clickCommand:

8. Left-click the Sphere tool icon in the Home/3D Modeling panel. Thecommand line shows:

Command: _sphereSpecify centerpoint or [3P/2P/TTr]: pick centre of cylinderSpecify radius of or [Diameter]: enter 60 right-clickCommand:

9. Left-click in the Front (top left) viewport to make it active.10. With the Move tool, move the sphere vertically into its correct positionrelative to the cylinder.11. With the Union tool from the Home/Solid Editing panel form a union

of the two solids.12. Call the Box tool with a left-click on its tool icon in the Home/3D Modeling panel.


13. In the Plan view construct a box as follows:Command: _boxSpecify corner of box or [CEnter]: pickSpecify corner or [Cube/Length]: pickSpecify height or [2Point]: enter 15 right-clickCommand:

14. In the Front viewport, with the Move tool, move the box vertically to a good position.15. Call Subtract with a left-click on its tool icon in the Home/Solid Editing panel and subtract the mouth

from the head.16. In the Top viewport, construct two spheres of radius 5 for the eyes and with Union, join them to the head.17. Make the Isometric viewport current, call the Fillet tool and fillet the base of the cylinder of the head to a

radius of 20.18. Add another cylinder for the neck and join with Union to the head.19. Using the Wedge tool from the Home/3D Modeling panel construct a wedge for the nose in the Top

viewport, fillet its edges, then rotate and move to a good position. Then join to the head using Union.20. In the isometric viewport select Conceptual from Visual Styles.21. Save the model drawing to a floppy disk with the file name 13_Exercise01.dwg.22. Close the drawing window.


Chapter 13 Exercise 21. Open AutoCAD 2010 with a double-click on its shortcut icon in the Windows desktop.2. Open the template acadiso3D.dwt.3. Select New from the View/Viewports panel and from the Viewports dialog select Four: Equal with Setup

set to 3D.4. Set ISOLINES to 12.5. In the Front (top right) viewport, with the Sphere tool from the Home/3D Modeling panel, construct a

sphere of radius 70.6. Construct boxes using the Box tool from the Home/3D Modeling panel on each side of the sphere in the

Right (top left) viewport, with one side 35 units from the centre of the sphere and subtract the boxes fromthe sphere using the Subtract tool from the Home/Solid Editing panel.

7. In the Plan (bottom right) viewport, construct three cylinders to sizes as given in Fig. 13.14. In suitableviewports and with the Move tool, move the cylinders to their correct places relative to each other and to themain model.

8. Form a union of the diameter 50 and 40 cylinders and subtract the smallest of the three cylinders from theunion.

9. Call the Array tool from the Home/Modify panel and polar array the cylinder four times around the centreof the truncated sphere.

10. With the Union tool from the Home/Solid Editing panel form a union of the five objects.11. In the Right viewport, construct a sphere of radius 25 and subtract it from the union.12. In other viewports with the Move tool, move the sphere to its correct position in relation to the union.13. Subtract the sphere from the union.14. Save the model drawing to a floppy disk with the file name 13_Exercise02.dwg.15. Close the drawing window.


Chapter 13 Exercise 31. Open AutoCAD 2010 with a double-click on its shortcut icon in the Windows desktop.2. Open the template acadiso3D.dwt.3. Make a new layer Outlines of colour black and make it the current layer.4. Place the AutoCAD window in Four: Left viewports, with a setup of 3D.5. In the Top (centre left) viewport, construct the circle.6. In the Front (top left) viewport, construct the ellipse.7. Move the ellipse into its correct position with one axis end central to the circle.8. Set ISOLINES to 8.9. Make layer 0 current and the Isometric viewport current.10. Call the Extrude tool from the Home/3D Modeling panel. The command line shows:

Command: _extrudeCurrent wire frame density: ISOLINES=8Select objects to extrude: pick the circle 1 foundSelect objects: right-clickSpecify height of extrusion or [Direction/Path/Taper angle]: enter p right-clickSelect extrusion path or [Taper angle]: pick the ellipseCommand:

11. Working between the viewports and using the Copy tool, copy the link and rotate the link through 90°.12. Again working between the viewports and using Zoom where necessary, move the copied, rotated link in

line with the first link.13. With Copy tool copy the two links to make six in all.14. In the Isometric viewport select Conceptual from the Home/View panel.15. Save your model drawing to the file name 13_Exercise03.dwg in a floppy disk.16. Close the drawing window.


Chapter 13 Exercise 41. Open AutoCAD 2010 with a double-click on its shortcut icon in the Windows desktop.2. Open the template acadiso3D.dwt. Make a new layer Outlines of colour black.3. Place the AutoCAD window in a Four: Equal viewport setup.4. On the layer Outlines and in the Front (top right) viewport, construct a front view closed polyline outline of

the body of the lever and extrude to a height of 40.5. In the Front viewport, make the layer Construction current. Construct a polyline outline for the slot in the

lever and extrude to a height of 20. In the Top (bottom right) viewport move the slot to position in the lever.6. Make layer 0 current and subtract the slot from the lever.7. Make the layer Dimensions and the Front viewport current and construct three cylinders - two of radii 40

and height 10 and one of radius 30 and height 40.8. Make the Top viewport current and move the cylinders into their correct positions in relation to each other.

Then with the Union tool create a single entity from the three cylinders.9. Make the Isometric viewport current, call the Fillet tool and fillet the edges to a radius of 5.10. In the Top viewport construct a cylinder of radius 10 and height 95. In another viewport move the cylinder

to its correct position and with Union join it to the union of three cylinders.11. At the command line:

Command: enter change right-clickSelect objects: pick the lever 1 foundSelect objects: right-clickSpecify change point or [Properties]: enter p right-clickEnter property to change [Color/Elev/LAyer/LType/ltScale/LWeight/Thickness/Material/Annotative]: enter c right-clickNew color [Truecolor/COlorbook] <BYLAYER>: enter blue right-clickEnter property to change [Color/Elev/LAyer/LType/ltScale/LWeight/Thickness/Materials/Annotative]: right-clickCommand:


12. In the isometric viewport select Conceptual from the Home panel.13. Save to a floppy disk with the file name 13_Exercise04.dwg.14. Close the drawing window.


Chapter 13 Exercise 51. Open AutoCAD 2010 with a double-click on its shortcut icon in the Windows desktop.2. Open the template acadiso3D.dwt.3. Place the AutoCAD window in a Three: Left viewport setup.4. In the Front (top right) viewport, construct a front view of the faceplate.5. Extrude all parts to a height of 11.6. Subtract the inner parts from the circular extrusion.7. In the Front viewport construct the boss at the rear of the faceplate, extrude to a height of 23 and subtract the

inner part from the outer extrusions.8. In the Top (bottom right) viewport move the boss to its correct position relative to the faceplate.9. Form a union of the two parts.10. In the Isometric viewport select Conceptual from Home/View panel.11. Save the model drawing to a file name 13_Exercise05.dwg in a floppy disk.12. Close the drawing window.


Additional exercises

1. The illustration shows a Conceptual shaded 3D model of a food whisk which has beenconstructed on layers of different colours. In a Three: Right viewport setup and workingto dimensions of your own choice construct a 3D model of a similar food whisk. Thecurved metallic parts of the whisk are constructed from a union of extrusions along a path.

2. The illustration on the next page shows a Conceptual shaded scene of five 3D models ina scene which includes four copies of a chair placed around a table. The models have beenconstructed on layers of different colours. Construct a 3D model drawing of a table suchas that shown. Construct a 3D model of a chair similar to those shown and copy the chairthree times and place the copies around the table. Finally shade the drawing in a SE Isometric viewport.


3. A Shaded 3D model of a toy is shown to theright and a three-view projection of the toyis shown on the next page.

In a Three: Left viewport setting, constructa 3D model of the toy, including coloured3D model drawings of the shaped lengthsof material for placing in the shaped holesof the stand.


4. Working to the dimensions given in the drawing below, construct the views of the Piston crank in a Four:Equal viewports setup. Shade each viewport when completed.


Multiple choice questions1. When constructing 3D model drawings in multiple viewports:

(a) The set variable UCSFOLLOW must be set to on(b) The set variable UCSFOLLOW must be set to off(c) It does not matter whether the set variable UCSFOLLOW is set on or off(d) The set variable UCSFOLLOW must be set to 3.

2. When constructing 3D model drawings in multiple viewports(a) The UCS icons must not be showing in each viewport(b) It does not matter whether the UCS icons are showing in viewports or not(c) The UCS icon must be showing in the isometric view viewport(d) The UCS icon must be showing in the Front and Plan viewports.

3. When constructing 3D model drawings in multiple viewports:(a) Each viewport must be set independently to different viewpoints from the Visual Styles menu(b) Only when working in a particular viewport will its viewpoint need to be set(c) Each viewport is set to different viewpoints when a multiple viewport is chosen from the Viewportsdialog(d) Each viewport is set to different viewpoints when a multiple viewport is chosen from the Viewportsdialog only if the Setup popup list is set to 3D.


introduction to autocad 2010chapter 13 exercise 2 1. open autocad 2010 with a double-click on its...

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