{"id":1565,"date":"2021-03-08T15:30:45","date_gmt":"2021-03-08T20:30:45","guid":{"rendered":"https:\/\/opentextbc.ca\/autocad2d\/chapter\/regular-polygons\/"},"modified":"2021-11-03T16:46:16","modified_gmt":"2021-11-03T20:46:16","slug":"regular-polygons","status":"publish","type":"chapter","link":"https:\/\/opentextbc.ca\/autocad2d\/chapter\/regular-polygons\/","title":{"raw":"Module 30: Regular Polygons","rendered":"Module 30: Regular Polygons"},"content":{"raw":"
\n

Learning Outcomes<\/p>\n\n<\/header>\n

\n\nWhen you have completed this module, you will be able to:\n
    \n \t
  1. Describe a regular polygon and the methods used to construct them.<\/li>\n \t
  2. Apply the POLYGON command to create regular polygons using three methods.<\/li>\n \t
  3. Apply the ELLIPSE command to create ellipses.<\/li>\n \t
  4. Apply the RECTANGLE command to create rectangles.<\/li>\n \t
  5. Apply the AREA command to measure areas and perimeters.<\/li>\n \t
  6. Describe how to work with and add and subtract angles with degrees minutes and seconds.<\/li>\n<\/ol>\n<\/div>\n<\/div>\n

    Drawing Regular Polygons<\/h1>\nA regular polygon <\/em><\/span>is a closed polyline having between 3 and 1,024 equal-length sides. Regular polygons can be drawn using the POLYGON command. Using the POLYGON command to create polygons is a fast and simple way to draw squares, equilateral triangles, hexagons, octagons, and any other regular polygon. See Module 14.\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"500\"]\"\" Figure 30-1
    A Regular Polygon[\/caption]\n\nA polygon drawn using the POLYGON command constructs a closed pline. Polygons can be constructed using the inscribed, circumscribed, or the edge method. See Figure 30-1 and 30-2. Since the polygon drawn by the POLYGON command is a polyline, it is one object in AutoCAD. It can be exploded into individual lines using the EXPLODE command.\n\nEven though a square can be constructed using the POLYGON command, they are easier to draw using the RECTANGLE command.\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"399\"]\"\" Figure 30-2
    Drawing a Regular Polygon - Edge Method[\/caption]\n\n
    \n

    AutoCAD Command: POLYGON<\/p>\n\n<\/header>\n

    \n\nThe POLYGON command is used to create closed polylines to form regular polygons that have between 3 to 1024 sides.\n\nShortcut: POL\"\"<\/strong>\n\n\"\"\n\n\"\"\n\n<\/div>\n<\/div>\n
    \n

    AutoCAD Command: RECTANGLE<\/p>\n\n<\/header>\n

    \n\nThe RECTANGLE command is used to construct a 4 sided polygon using a closed polyline in the shape of a rectangle or a square.\n\nShortcut: REC\"\"<\/strong>\n\n\"\"<\/strong>\n\n\"\"<\/strong>\n\n<\/div>\n<\/div>\n
    \n

    AutoCAD Command: ELLIPSE<\/p>\n\n<\/header>\n

    \n\nThe ELLIPSE command is used to construct ellipses or elliptical arcs.\n\nShortcut: EL<\/strong>\n\n\"\"\n\n\"\"\n\n\"\"\n\n<\/div>\n<\/div>\n

    Geometry Lesson: Ellipse<\/h1>\nAn ellipse <\/em><\/span>is determined by two axes that define its length and width. The longer axis is called the major axis<\/em><\/span>, and the shorter one is the minor axis<\/em><\/span>. The center of the ellipse is located at the intersection of the axes. The rotation angle of the ellipse determines length of the minor axis compared to the length of the major axis. See Figure 30-3.\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"600\"]\"\" Figure 30-3
    An Ellipse[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"1017\"]\"\" Figure 30-4
    Object Snap Location for Ellipses[\/caption]\n

    WORKALONG: Using the POLYGON, RECTANGLE and ELLIPSE Commands<\/h1>\n

    Step 1<\/h2>\nStart a new drawing using the template: 2D Layout English<\/span>.\n

    Step 2<\/h2>\nSave and name the drawing: AutoCAD 2D Workalong 30-1<\/span>.\n

    Step 3<\/h2>\nOn layer: Construction<\/span>, draw two horizontal and 3 vertical lines as shown in the dimensioned drawing. Where you start the drawing is not important. (Figure Step 3A and 3B)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"500\"]\"\" Figure Step 3A[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"500\"]\"\" Figure Step 3B[\/caption]\n

    Step 4<\/h2>\nSet layer: Object<\/span> as the current layer. Enter the POLYGON command, as shown below, to draw a hexagon with its center at the intersection of the top and left line. (Figure Step 4A and 4B)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"178\"]\"\" Figure Step 4A[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"425\"]\"\" Figure Step 4B[\/caption]\n\n
    \n\nAUTHOR'S COMMENTS: <\/strong>An inscribed polygon is dimensioned between two opposite points on the polygon. An circumscribed polygon is dimensioned between opposite sides.\n\n<\/div>\n

    Step 5<\/h2>\nEnter the POLYGON command, as shown below, to draw the hexagon with its center at the intersection of the top and the center line. (Figure Step 5A and 5B)\n\nCommand: POL<\/strong>\n\nEnter number of sides <8>: 6<\/strong>\n\n(Enter the number of sides of the polygon.)<\/em><\/span>\n\nSpecify center of polygon or [Edge]: (int)<\/span> <\/em>\n\n(Snap to the intersection of the two lines.)<\/em><\/span>\n\nEnter an option [Inscribed in circle\/Circumscribed about circle] <C>: I<\/strong>\n\n(This is an inscribed polygon since it is dimensioned to a corner.)<\/em><\/span>\n\nSpecify radius of circle: @0.5<0<\/strong>\n\n(Radius of the inscribed circle.)<\/em><\/span>\n\nCommand:\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"262\"]\"\" Figure Step 5A[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"501\"]\"\" Figure Step 5B[\/caption]\n\n
    AUTHOR'S COMMENTS: <\/strong>An inscribed polygon is dimensioned between two opposite points on the polygon. An circumscribed polygon is dimensioned between opposite sides.<\/div>\n

    Step 5<\/h2>\nEnter the POLYGON command, as shown below, to draw the hexagon with its center at the intersection of the top and the center line. (Figure Step 5A and 5B)\n\nCommand: POL<\/strong>\n\nEnter number of sides <8>: 6<\/strong>\n\n(Enter the number of sides of the polygon.)<\/em><\/span>\n\nSpecify center of polygon or [Edge]: (int) <\/em>\n\n(Snap to the intersection of the two lines.)<\/em><\/span>\n\nEnter an option [Inscribed in circle\/Circumscribed about circle] <I>: C<\/strong>\n\n(This is a circumscribed polygon.)<\/em><\/span>\n\nSpecify radius of circle: @0.5<0<\/strong>\n\n(Radius of the circumscribed circle.)<\/em><\/span>\n\nCommand:\n

    Step 6<\/h2>\nEnter the POLYGON command, as shown below, to draw a hexagon with its center at the intersection of the top and the right line. (Figure Step 6A and 6B)\n\nCommand: POL<\/strong>\n\nEnter number of sides <8>: 6<\/strong>\n\nSpecify center of polygon or [Edge]: (int)<\/em><\/span>\n\nEnter an option [Inscribed in circle\/Circumscribed about circle] <I>: I<\/strong>\n\nSpecify radius of circle: @0.5<90<\/strong>\n\n(Radius and location of the corner of the polygon.)<\/span>\n\nCommand:\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"248\"]\"\" Figure Step 6A[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"500\"]\"\" Figure Step 6B[\/caption]\n\n
    AUTHOR'S COMMENTS: <\/strong>Note how the corner of a polygon can be located by entering a coordinate to locate the radius.<\/div>\n

    Step 7<\/h2>\nUsing what you learned in Steps 4 to 6, draw the three regular polygons and locate them as shown in the figure. (Figure Step 7A and 7B)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"600\"]\"\" Figure Step 7A[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"600\"]\"\" Figure Step 7B[\/caption]\n

    Step 8<\/h2>\nOn layer: Object<\/span>, enter the RECTANGLE command, as shown below, to draw the rectangle. (Figure Step 8)\n\nCommand: RECTANGLE<\/strong>\n\nSpecify first corner point or [Chamfer\/Elevation\/Fillet\/Thickness\/Width]: 1,2.5<\/strong>\n\nSpecify other corner point or [Area\/Dimensions\/Rotation]: 7.5,6<\/strong>\n\nCommand:\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"356\"]\"\" Figure Step 8[\/caption]\n

    Step 9<\/h2>\nOn layer: Construction<\/span>, draw diagonal lines by snapping from corner to corner of the rectangle. (Figure Step 9)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"325\"]\"\" Figure Step 9[\/caption]\n

    Step 10<\/h2>\nOn layer: Object<\/span>, using the figure as a reference, enter the ELLIPSE command, as shown below, to draw the ellipse. (Figure Step 10A and 10B)\n\nCommand: ELLIPSE<\/strong>\n\nSpecify axis endpoint of ellipse or [Arc\/Center]: C<\/strong>\n\nSpecify center of ellipse: (int)<\/span><\/em>\n\n(Snap to the intersection of the two diagonal lines to located the center of the ellipse.)<\/em><\/span>\n\nSpecify endpoint of axis: @2,0<\/strong>\n\nSpecify distance to other axis or [Rotation]: @0,1<\/strong>\n\nCommand:\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"321\"]\"\" Figure Step 10A[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"354\"]\"\" Figure Step 10B[\/caption]\n

    Step 11<\/h2>\nTrim the construction lines inside the ellipse. (Figure step 11)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"354\"]\"\" Figure Step 11[\/caption]\n

    Step 12<\/h2>\nUsing what you learned earlier in this workalong, on layer: Object<\/span>, draw the four polygons shown in the figure. Locate the centers of the polygons at the midpoint of each construction line. (Figure Step 12A and 12B)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"600\"]\"\" Figure Step 12A[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"350\"]\"\" Figure Step 12B[\/caption]\n

    Step 13<\/h2>\nTurn layer: Construction<\/span> off. Enter the POLYGON command, as shown below, to draw a hexagon using the Edge method. (Figure 13A and 13B)\n\nCommand: POL<\/strong>\n\nPOLYGON Enter number of sides <8>: 6 <\/strong>\n\nSpecify center of polygon or [Edge]: E <\/strong>\n\nSpecify first endpoint of edge: (end) <\/em>P1 <\/strong>\n\nSpecify second endpoint of edge: (end) <\/em>P2 <\/strong>\n\nCommand:\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"235\"]\"\" Figure Step 13A[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"253\"]\"\" Figure Step 13B[\/caption]\n

    Step 14<\/h2>\nExplode both polygons and delete the lines they share. (Figure Step 14)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"255\"]\"\" Figure Step 14[\/caption]\n

    Step 15<\/h2>\nUsing what you learned in Module 29, use the PEDIT command to create a closed polyline. Using the Properties window, confirm that the polygon you just created is closed. (Figure Step 15)\n\n \n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"456\"]\"\" Figure Step 15[\/caption]\n

    Step 16<\/h2>\nThe bottom section of your drawing should appear as shown in the figure. (Figure Step 16)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"418\"]\"\" Figure Step 16[\/caption]\n\n
    USER TIP:<\/strong> While the ELLIPSE command can be used to draw elliptical arcs, it is much easier to draw full ellipses and then trim or break them to the desired size.\"\"<\/div>\n
    \n

    AutoCAD Command: AREA<\/p>\n\n<\/header>\n

    \n\nThe AREA command is used to find the area or perimeter of a series of coordinates, a closed polyline, circle or ellipse.\n\nShortcut: none<\/strong>\n\n[caption id=\"attachment_1528\" align=\"aligncenter\" width=\"240\"]\"\" Measurement Tools Toolbar[\/caption]\n\n\u00a0<\/strong>\n\n[caption id=\"attachment_1528\" align=\"aligncenter\" width=\"292\"]\"\" Tools Pull-down[\/caption]\n\n[caption id=\"attachment_1528\" align=\"aligncenter\" width=\"299\"]\"\" Home Ribbon[\/caption]\n\n<\/div>\n<\/div>\n
    MUST KNOW:<\/strong> The EXPLODE command converts an open or closed polyline back into their individual line objects. When exploded, polylines will lose their assigned width.<\/div>\n

    WORKALONG: Using the AREA Command<\/span><\/span><\/h1>\n

    Step 1<\/h2>\nOpen the drawing: AutoCAD 2D Workalong 30-1<\/span>. (Figure Step 1)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"267\"]\"\" Figure Step 1[\/caption]\n

    Step 2<\/h2>\nEnter the AREA command, as shown below, to measure the area of the rectangle using the Corner Point method. (Figure Step2)\n\nCommand: AREA<\/strong>\n\nSpecify first corner point or [Object\/Add\/Subtract]: (end)<\/span> <\/em>P1 <\/strong>\n\nSpecify next corner point or press ENTER for total: (end) <\/em><\/span>P2 <\/strong>\n\nSpecify next corner point or press ENTER for total: (end) <\/em><\/span>P3<\/strong>\n\nSpecify next corner point or press ENTER for total: (end) <\/em><\/span>P4<\/strong>\n\nSpecify next corner point or press ENTER for total: (press Enter)<\/em><\/span>\n\n(You do not have to snap back to the start point. The AREA command will go back to the first point and calculate the area and perimeter.)<\/em><\/span>\n\nArea = 22.7500, Perimeter = 20.0000\n\nCommand:\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"407\"]\"\" Figure Step 2[\/caption]\n\n
    \n\nAUTHOR'S COMMENTS: <\/strong>This is an example of using the point method of finding the area and the perimeter of a series of coordinate locations. The corner point method only works for an area containing lines. It does not work if any one of the sides is an arc.\n\n<\/div>\n

    Step 3<\/h2>\nEnter the AREA command, as shown below, to measure the area and perimeter of the rectangle using the Object method. (Figure Step 3)\n\nCommand: AREA<\/strong>\n\nSpecify first corner point or [Object\/Add\/Subtract]: O<\/strong>\n\n(Using the Object method.)<\/em><\/span>\n\nSelect objects: P5<\/strong>\n\n(Select the object. It must be a closed polygon, a circle or an ellipse.)<\/em><\/span>\n\nArea = 22.7500, Perimeter = 20.0000\n\n(This answer will match the results found in Step 2)<\/em><\/span>\n\nCommand:\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"289\"]\"\" Figure Step 3[\/caption]\n

    Step 4<\/h2>\nEnter the AREA command, as shown below, to measure the area of the rectangle subtracting objects from the overall area. (Figure Step 4)\n\nCommand: AREA<\/strong>\n\nSpecify first corner point or [Object\/Add\/Subtract]: A<\/strong>\n\n(Specifying you want to be in Add mode.)<\/span> <\/em>\n\nSpecify first corner point or [Object\/Subtract]: O<\/strong>\n\n(ADD mode) Select objects: P6<\/strong>\n\n(Add in the rectangle area.)<\/em><\/span>\n\nArea = 22.7500, Perimeter = 20.0000\n\nTotal area = 22.7500\n\n(ADD mode) Select objects:\n\n(Press enter to end the Add mode)<\/span><\/em>\n\nSpecify first corner point or [Object\/Subtract]: S<\/strong>\n\n(Beginning the Subtract mode.)<\/em><\/span>\n\nSpecify first corner point or [Object\/Add]: O <\/strong>\n\n(SUBTRACT mode) Select objects: P7<\/strong>\n\nArea = 0.1591, Perimeter = 1.8187\n\nTotal area = 22.5909\n\n(SUBTRACT mode) Select objects: P8 <\/strong>\n\nArea = 0.3183, Perimeter = 2.1000\n\nTotal area = 22.2726\n\n(SUBTRACT mode) Select objects: P9 <\/strong>\n\nArea = 6.2832, Perimeter = 9.6884\n\nTotal area = 15.9894\n\n(SUBTRACT mode) Select objects: P10<\/strong>\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"352\"]\"\" Figure Step 4[\/caption]\n\nArea = 0.6365, Perimeter = 3.5000\n\nTotal area = 15.3529\n\n(SUBTRACT mode) Select objects: P11<\/strong>\n\nArea = 0.2450, Perimeter = 1.9799\n\nTotal area = 15.1079\n\n(SUBTRACT mode) Select objects:\n\n(Press Enter to end the Subtract mode.)<\/em><\/span>\n\nTotal area = 15.1079\n\n(The area of the overall object minus the 5 inner objects is 15.1079 square inches.)<\/em><\/span>\n\nCommand:\n

    Step 5<\/h2>\nEnter the AREA command, as shown below, to measure and add the areas of three individual objects. (Figure Step 5)\n\nCommand: AREA<\/strong>\n\nSpecify first corner point or [Object\/Add\/Subtract]: A<\/strong>\n\n(Enter the Add mode.)<\/em><\/span>\n\nSpecify first corner point or [Object\/Subtract]: O<\/strong>\n\n(ADD mode) Select objects: P12 <\/strong>\n\nArea = 0.1591, Perimeter = 1.8187\n\nTotal area = 0.1591\n\n(ADD mode) Select objects: P13<\/strong>\n\nArea = 0.2450, Perimeter = 1.9799\n\nTotal area = 0.4041\n\n(ADD mode) Select objects: P14<\/strong>\n\nArea = 0.6365, Perimeter = 3.5000\n\nTotal area = 1.0407\n\n(The total area of the three objects combined is 1.0407 square inches.)<\/em><\/span>\n\nCommand:\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"478\"]\"\" Figure Step 5[\/caption]\n\n
    AUTHOR'S COMMENTS: <\/strong>The area and perimeter can also be obtained by using the Properties window. The areas to be measured must be closed polygons.<\/div>\n

    Step 6<\/h2>\nOpen the Properties window and select the large rectangle. The area and the perimeter (length) will display. (Figure Step 6)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"582\"]\"\" Figure Step 6[\/caption]\n

    Step 7<\/h2>\nUnselect the rectangle and select the object in the bottom right. The area and the perimeter (length) will display. (Figure Step 7)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"470\"]\"\" Figure Step 7[\/caption]\n

    Geometry Lesson: Degrees Minutes and Seconds<\/h1>\nSince a full degree is not always precise enough to measure an angle, you must be able to work to a more precise measurement. Degrees are broken down to smaller and more precise units of minutes<\/span> <\/em>and seconds<\/em><\/span>.\n\n1 degree is divided into 60 minutes and 1 minute is divided into 60 seconds:\n\n1 degree = 60 minutes\n\n1 minute = 60 seconds\n\nTherefore, 1 degree = 3600 seconds.\n\nDegrees are written 1E, minutes are written 01' and seconds 01\".\n\nCombined: 1<01'01\".\n\nHere are some examples of adding and subtracting angles with degree minutes and seconds. Study them and then solve problems A to F below.\n\n\"\"\n

    Adding and Subtracting Degrees Minutes Seconds<\/h2>\nSolve the following problems of adding and subtracting degrees, minutes and seconds. The answers are shown below.\n\n\"\"\n

    Answers to Adding and Subtracting Degrees Minutes Seconds:<\/h2>\nA 105E23'09\"\n\nB 45E07'25\"\n\nC 256E42'44\"\n\nD 26E24'14\"\n\nE 147E18'22\"\n\nF 105E19'46\"\n

    Working in Degrees Minutes and Seconds<\/h2>\nUp to this point in the book, all of the angles have been entering using degrees and decimals of a degree. The values of degrees can also be entered using degree\/minutes\/seconds.\n\nThe Drawing Units dialogue box must be set to report angular units and precision in degree\/minutes\/seconds. The Angle Type must be set to Deg\/Min\/Sec and the Precision set to the value that you want it reported. See Figure 30-5.\n\nSince there is no degree symbol on the keyboard, enter the letter \u2018 d \u2018 after the number when entering degrees in response to an AutoCAD prompt.\n\nFor example: 34d\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"368\"]\"\" Figure 30-5
    Setting the Angle Type and Precision[\/caption]\n\nTo specify the number of minutes, enter a ' (single quote) after the number and to enter seconds, enter a \" (double quote) after the number. See Figure 30-6.\n\nFor example: 34d56'32\" Command: LINE<\/strong>\n\nSpecify first point: 2,2<\/strong>\n\nSpecify next point or [Undo]: @2<34d56'32\"<\/strong>\n\nSpecify next point or [Undo]:\n\nCommand:\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"285\"]\"\" Figure 30-6
    An Angle Using Deg\/Min\/Sec[\/caption]\n\n \n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"1025\"]\"\" Figure 30-7
    Object Snap Location for Geometric Center
    Note: Geometric Center osnap mode snaps to the centroid of any closed polyline.[\/caption]\n

    Key Principles<\/h1>\n
    \n

    Key Principles in Module 30<\/p>\n\n<\/header>\n

    \n
      \n \t
    1. A regular polygon is a closed polyline having between 3 and 1,024 equal-length sides and is drawn using the POLYGON command.<\/li>\n \t
    2. The EXPLODE command converts a polygon made from an open or closed polyline back into its individual line objects. When exploded, polylines will lose their assigned widths.<\/li>\n<\/ol>\n<\/div>\n<\/div>\n

      Lab Exercise 30-1<\/h1>\nTime allowed: 60 minutes.\n\n\n\n\n
      Drawing Name<\/th>\nTemplate<\/th>\nUnits<\/th>\n<\/tr>\n
      AutoCAD 2D Lab 30-1<\/td>\n2D Layout English<\/td>\nInches<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n

      \u00a0Step 1<\/h2>\nOn layer: Object<\/span>, draw the object shown in the figures. (Figure Step 1A and 1B)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"271\"]\"\" Figure Step 1A
      Completed Drawing[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"600\"]\"\" Figure Step 1B[\/caption]\n

      Step 2<\/h2>\nOn layer: Boundary<\/span>, using the PEDIT command, create a closed polygon of the outside outline of the object. (Figure Step 2)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"268\"]\"\" Figure Step 2[\/caption]\n

      Step 3<\/h2>\nTo the precision of 4 decimal places, find the area and perimeter of the closed polygon created in Step 2.\n\nA <\/strong>Area = ___________________\n\nB <\/strong>Perimeter = ___________________\n

      Step 4<\/h2>\nChange the square and the heptagon to appear as shown in the figure. On layer Boundary<\/span>, using the BOUNDARY command, create a closed polygon of the new shape. (Figure Step 4)\n

      Step 5<\/h2>\nTo the precision of 6 decimal places, find the area and perimeter of the closed polygon created in Step 4.\n\nA <\/strong>Area = ___________________\n\nB <\/strong>Perimeter = ___________________\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"329\"]\"\" Figure Step 4[\/caption]\n\n
      \n\nAUTHOR'S CONSTRUCTION HINTS: <\/strong>Do your best to complete the lab exercise drawing without using the following hint. If you get stuck and cannot complete it on your own, use the following hint to help you.\n\n<\/div>\n

      Hint 1<\/h2>\nTo draw the 3 radius tangent arc on the top right side of the object, you must draw a tangent circle and then trim it. The FILLET command cannot be used as it will draw the fillet on the inside. Use the CIRCLE command and the TTR option to insert the tangent circle and then trim it. (Figure Hint 1)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"610\"]\"\" Figure Hint 1[\/caption]\n

      Lab Exercise 30-2<\/h1>\nTime allowed: 60 minutes.\n\n\n\n\n
      Drawing Name<\/th>\nTemplate<\/th>\nUnits<\/th>\n<\/tr>\n
      AutoCAD 2D Lab 30-2<\/td>\n2D Layout English<\/td>\nFeet<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n

      Step 1<\/h2>\nStart a new drawing using the template shown above. (Figure Step 1)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"500\"]\"\" Figure Step 1
      All Dimensions in are Feet[\/caption]\n

      Step 2<\/h2>\nUsing the UNITS command, set the Length type to Engineering, the Angle type to Deg\/Min\/Sec and Units to scale inserted content: to Inches, as shown in the figure. (Figure Step 2)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"369\"]\"\" Figure Step 2[\/caption]\n\n
      \n\nAUTHOR'S COMMENTS: <\/strong>You are going to be working in the units of feet and decimals of a foot in this drawing. Keep in mind that AutoCAD always wants to work in inches, therefore, all numbers that you input must be followed by the foot mark character. i.e. 500.0'\n\n<\/div>\n

      Step 3<\/h2>\nOn layer: Lot Lines<\/span>, draw the first line of the model, as shown below: (Figure Step 3A and 3B)\n\nCommand: LINE<\/strong>\n\nSpecify first point: 200.0',1200.0<\/strong>'\n\n(Make sure that all numbers are followed by the ' character.)<\/span><\/em>\n\nSpecify next point or [Undo]: @1200.0',0'<\/strong>\n\nSpecify next point or [Undo]:\n\nCommand: ZOOM<\/strong>\n\nSpecify corner of window, enter a scale factor (nX or nXP), or\n\n[All\/Center\/Dynamic\/Extents\/Previous\/Scale\/Window\/Object] <real time>: E <\/strong>\n\nRegenerating model.\n\nCommand:\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"374\"]\"\" Figure Step 3A[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"209\"]\"\" Figure Step 3B[\/caption]\n\n
      \n\nAUTHOR'S COMMENTS: <\/strong>The first line you draw will not appear in the current zoomed state of the drawing. After you draw the line, you have to enter the ZOOM Extents command so that you can view it and complete the drawing.\n\n<\/div>\n

      Step 4<\/h2>\nOn layer: Lot Lines<\/span>, complete the model using the dimensioned drawing shown in Step 1. The input must be is feet and decimals of a foot. (Figure Step 4)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"435\"]\"\" Figure Step 4[\/caption]\n\n
      \n\nAUTHOR'S COMMENTS MINI-SURVEY PLAN LESSON: <\/strong>The length of the lots, on survey maps, are dimensioned by placing the length dimension parallel and along the lot line it is referring to. The length is measured from corner of the lot to corner of the lot. In Figure 30-8, the distance is 500.0 feet. The pin, small circles at the ends, have nothing to do with the dimensions. They only show where the surveyor has placed a metal pin in the ground when the survey was completed. When you draw the map, draw all the lines and then insert 10 feet diameter circles snapping their centers at the ends of the lines.\n\n[caption id=\"attachment_1551\" align=\"aligncenter\" width=\"371\"]\"\" Figure 30-8[\/caption]\n\n<\/div>\n

      Step 5<\/h2>\nOn layer: Lot Pins<\/span>, draw circles, with 10 foot diameters, to indicate the location of the survey pins. Hint: Draw one circle and copy it to the other locations. (Figure Step 5)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"500\"]\"\" Figure Step 5[\/caption]\n

      Step 6<\/h2>\nWith INSUNITS set to Inches, insert the key to check your model for accuracy.\n

      Step 7<\/h2>\nEnable layout: Module Layout C.<\/span> On layer: Viewport<\/span>, create a viewport as shown in the figure. Set the scale to 1:1200 or 0.000833 and lock the display. (Figure Step 7)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"600\"]\"\" Figure Step 7[\/caption]\n

      Step 8<\/h2>\nUsing the AREA command, find the area of each of the 10 lots. On layer: Text<\/span>, in paper space, insert the text as shown in the figure. Edit the text with the applicable area. Fill in the titleblock. (Figure Step 8)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"496\"]\"\" Figure Step 8[\/caption]\n

      Step 9<\/h2>\nIn Paper space, on layer: Lot Dimensions<\/span>, insert the dimensions of the lot lines as shown in the figure. On layer: Lot Labels<\/span>, insert text of the street name and the lot numbers. Create your own text style, pick the font and select the text height. (Figure Step 9)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"600\"]\"\" Figure Step 9[\/caption]\n

      Step 10<\/h2>\nTurn layer: Viewport<\/span> off to complete the drawing. (Figure Step 10)\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"473\"]\"\" Figure Step 10[\/caption]\n\n
      \n\nAUTHOR'S CONSTRUCTION HINTS: <\/strong>Do your best to complete the lab exercise drawing without using the following hints. If you get stuck and cannot complete it on your own, use the following hints to help you.\n\n<\/div>\n

      Hint 1<\/h2>\nTo draw the arc in the center, first draw two 150 foot diameter circles on layer: Construction<\/span>. Use the ends of the lot lines as the center locations. Where the circles intersect is the center of the 150 foot diameter arc. Draw a circle and then trim it. (Figure Hint 1A and 1B).\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"213\"]\"\" Figure Hint 1A[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"209\"]\"\" Figure Hint 1B[\/caption]\n

      Hint 2<\/h2>\nFigure Hint 2A to 2F will help you calculate the angles.\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"376\"]\"\" Figure Hint 2A[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"600\"]\"\" Figure Hint 2B[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"281\"]\"\" Figure Hint 2C[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"435\"]\"\" Figure Hint 2D[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"500\"]\"\" Figure Hint 2E[\/caption]\n\n[caption id=\"attachment_1564\" align=\"aligncenter\" width=\"500\"]\"\" Figure Hint 2F[\/caption]","rendered":"
      \n
      \n

      Learning Outcomes<\/p>\n<\/header>\n

      \n

      When you have completed this module, you will be able to:<\/p>\n

        \n
      1. Describe a regular polygon and the methods used to construct them.<\/li>\n
      2. Apply the POLYGON command to create regular polygons using three methods.<\/li>\n
      3. Apply the ELLIPSE command to create ellipses.<\/li>\n
      4. Apply the RECTANGLE command to create rectangles.<\/li>\n
      5. Apply the AREA command to measure areas and perimeters.<\/li>\n
      6. Describe how to work with and add and subtract angles with degrees minutes and seconds.<\/li>\n<\/ol>\n<\/div>\n<\/div>\n

        Drawing Regular Polygons<\/h1>\n

        A regular polygon <\/em><\/span>is a closed polyline having between 3 and 1,024 equal-length sides. Regular polygons can be drawn using the POLYGON command. Using the POLYGON command to create polygons is a fast and simple way to draw squares, equilateral triangles, hexagons, octagons, and any other regular polygon. See Module 14.<\/p>\n

        \"\"
        Figure 30-1
        A Regular Polygon<\/figcaption><\/figure>\n

        A polygon drawn using the POLYGON command constructs a closed pline. Polygons can be constructed using the inscribed, circumscribed, or the edge method. See Figure 30-1 and 30-2. Since the polygon drawn by the POLYGON command is a polyline, it is one object in AutoCAD. It can be exploded into individual lines using the EXPLODE command.<\/p>\n

        Even though a square can be constructed using the POLYGON command, they are easier to draw using the RECTANGLE command.<\/p>\n

        \"\"
        Figure 30-2
        Drawing a Regular Polygon – Edge Method<\/figcaption><\/figure>\n
        \n
        \n

        AutoCAD Command: POLYGON<\/p>\n<\/header>\n

        \n

        The POLYGON command is used to create closed polylines to form regular polygons that have between 3 to 1024 sides.<\/p>\n

        Shortcut: POL\"\"<\/strong><\/p>\n

        \"\"<\/p>\n

        \"\"<\/p>\n<\/div>\n<\/div>\n

        \n
        \n

        AutoCAD Command: RECTANGLE<\/p>\n<\/header>\n

        \n

        The RECTANGLE command is used to construct a 4 sided polygon using a closed polyline in the shape of a rectangle or a square.<\/p>\n

        Shortcut: REC\"\"<\/strong><\/p>\n

        \"\"<\/strong><\/p>\n

        \"\"<\/strong><\/p>\n<\/div>\n<\/div>\n

        \n
        \n

        AutoCAD Command: ELLIPSE<\/p>\n<\/header>\n

        \n

        The ELLIPSE command is used to construct ellipses or elliptical arcs.<\/p>\n

        Shortcut: EL<\/strong><\/p>\n

        \"\"<\/p>\n

        \"\"<\/p>\n

        \"\"<\/p>\n<\/div>\n<\/div>\n

        Geometry Lesson: Ellipse<\/h1>\n

        An ellipse <\/em><\/span>is determined by two axes that define its length and width. The longer axis is called the major axis<\/em><\/span>, and the shorter one is the minor axis<\/em><\/span>. The center of the ellipse is located at the intersection of the axes. The rotation angle of the ellipse determines length of the minor axis compared to the length of the major axis. See Figure 30-3.<\/p>\n

        \"\"
        Figure 30-3
        An Ellipse<\/figcaption><\/figure>\n
        \"\"
        Figure 30-4
        Object Snap Location for Ellipses<\/figcaption><\/figure>\n

        WORKALONG: Using the POLYGON, RECTANGLE and ELLIPSE Commands<\/h1>\n

        Step 1<\/h2>\n

        Start a new drawing using the template: 2D Layout English<\/span>.<\/p>\n

        Step 2<\/h2>\n

        Save and name the drawing: AutoCAD 2D Workalong 30-1<\/span>.<\/p>\n

        Step 3<\/h2>\n

        On layer: Construction<\/span>, draw two horizontal and 3 vertical lines as shown in the dimensioned drawing. Where you start the drawing is not important. (Figure Step 3A and 3B)<\/p>\n

        \"\"
        Figure Step 3A<\/figcaption><\/figure>\n
        \"\"
        Figure Step 3B<\/figcaption><\/figure>\n

        Step 4<\/h2>\n

        Set layer: Object<\/span> as the current layer. Enter the POLYGON command, as shown below, to draw a hexagon with its center at the intersection of the top and left line. (Figure Step 4A and 4B)<\/p>\n

        \"\"
        Figure Step 4A<\/figcaption><\/figure>\n
        \"\"
        Figure Step 4B<\/figcaption><\/figure>\n
        \n

        AUTHOR’S COMMENTS: <\/strong>An inscribed polygon is dimensioned between two opposite points on the polygon. An circumscribed polygon is dimensioned between opposite sides.<\/p>\n<\/div>\n

        Step 5<\/h2>\n

        Enter the POLYGON command, as shown below, to draw the hexagon with its center at the intersection of the top and the center line. (Figure Step 5A and 5B)<\/p>\n

        Command: POL<\/strong><\/p>\n

        Enter number of sides <8>: 6<\/strong><\/p>\n

        (Enter the number of sides of the polygon.)<\/em><\/span><\/p>\n

        Specify center of polygon or [Edge]: (int)<\/span> <\/em><\/p>\n

        (Snap to the intersection of the two lines.)<\/em><\/span><\/p>\n

        Enter an option [Inscribed in circle\/Circumscribed about circle] <C>: I<\/strong><\/p>\n

        (This is an inscribed polygon since it is dimensioned to a corner.)<\/em><\/span><\/p>\n

        Specify radius of circle: @0.5<0<\/strong><\/p>\n

        (Radius of the inscribed circle.)<\/em><\/span><\/p>\n

        Command:<\/p>\n

        \"\"
        Figure Step 5A<\/figcaption><\/figure>\n
        \"\"
        Figure Step 5B<\/figcaption><\/figure>\n
        AUTHOR’S COMMENTS: <\/strong>An inscribed polygon is dimensioned between two opposite points on the polygon. An circumscribed polygon is dimensioned between opposite sides.<\/div>\n

        Step 5<\/h2>\n

        Enter the POLYGON command, as shown below, to draw the hexagon with its center at the intersection of the top and the center line. (Figure Step 5A and 5B)<\/p>\n

        Command: POL<\/strong><\/p>\n

        Enter number of sides <8>: 6<\/strong><\/p>\n

        (Enter the number of sides of the polygon.)<\/em><\/span><\/p>\n

        Specify center of polygon or [Edge]: (int) <\/em><\/p>\n

        (Snap to the intersection of the two lines.)<\/em><\/span><\/p>\n

        Enter an option [Inscribed in circle\/Circumscribed about circle] <I>: C<\/strong><\/p>\n

        (This is a circumscribed polygon.)<\/em><\/span><\/p>\n

        Specify radius of circle: @0.5<0<\/strong><\/p>\n

        (Radius of the circumscribed circle.)<\/em><\/span><\/p>\n

        Command:<\/p>\n

        Step 6<\/h2>\n

        Enter the POLYGON command, as shown below, to draw a hexagon with its center at the intersection of the top and the right line. (Figure Step 6A and 6B)<\/p>\n

        Command: POL<\/strong><\/p>\n

        Enter number of sides <8>: 6<\/strong><\/p>\n

        Specify center of polygon or [Edge]: (int)<\/em><\/span><\/p>\n

        Enter an option [Inscribed in circle\/Circumscribed about circle] <I>: I<\/strong><\/p>\n

        Specify radius of circle: @0.5<90<\/strong><\/p>\n

        (Radius and location of the corner of the polygon.)<\/span><\/p>\n

        Command:<\/p>\n

        \"\"
        Figure Step 6A<\/figcaption><\/figure>\n
        \"\"
        Figure Step 6B<\/figcaption><\/figure>\n
        AUTHOR’S COMMENTS: <\/strong>Note how the corner of a polygon can be located by entering a coordinate to locate the radius.<\/div>\n

        Step 7<\/h2>\n

        Using what you learned in Steps 4 to 6, draw the three regular polygons and locate them as shown in the figure. (Figure Step 7A and 7B)<\/p>\n

        \"\"
        Figure Step 7A<\/figcaption><\/figure>\n
        \"\"
        Figure Step 7B<\/figcaption><\/figure>\n

        Step 8<\/h2>\n

        On layer: Object<\/span>, enter the RECTANGLE command, as shown below, to draw the rectangle. (Figure Step 8)<\/p>\n

        Command: RECTANGLE<\/strong><\/p>\n

        Specify first corner point or [Chamfer\/Elevation\/Fillet\/Thickness\/Width]: 1,2.5<\/strong><\/p>\n

        Specify other corner point or [Area\/Dimensions\/Rotation]: 7.5,6<\/strong><\/p>\n

        Command:<\/p>\n

        \"\"
        Figure Step 8<\/figcaption><\/figure>\n

        Step 9<\/h2>\n

        On layer: Construction<\/span>, draw diagonal lines by snapping from corner to corner of the rectangle. (Figure Step 9)<\/p>\n

        \"\"
        Figure Step 9<\/figcaption><\/figure>\n

        Step 10<\/h2>\n

        On layer: Object<\/span>, using the figure as a reference, enter the ELLIPSE command, as shown below, to draw the ellipse. (Figure Step 10A and 10B)<\/p>\n

        Command: ELLIPSE<\/strong><\/p>\n

        Specify axis endpoint of ellipse or [Arc\/Center]: C<\/strong><\/p>\n

        Specify center of ellipse: (int)<\/span><\/em><\/p>\n

        (Snap to the intersection of the two diagonal lines to located the center of the ellipse.)<\/em><\/span><\/p>\n

        Specify endpoint of axis: @2,0<\/strong><\/p>\n

        Specify distance to other axis or [Rotation]: @0,1<\/strong><\/p>\n

        Command:<\/p>\n

        \"\"
        Figure Step 10A<\/figcaption><\/figure>\n
        \"\"
        Figure Step 10B<\/figcaption><\/figure>\n

        Step 11<\/h2>\n

        Trim the construction lines inside the ellipse. (Figure step 11)<\/p>\n

        \"\"
        Figure Step 11<\/figcaption><\/figure>\n

        Step 12<\/h2>\n

        Using what you learned earlier in this workalong, on layer: Object<\/span>, draw the four polygons shown in the figure. Locate the centers of the polygons at the midpoint of each construction line. (Figure Step 12A and 12B)<\/p>\n

        \"\"
        Figure Step 12A<\/figcaption><\/figure>\n
        \"\"
        Figure Step 12B<\/figcaption><\/figure>\n

        Step 13<\/h2>\n

        Turn layer: Construction<\/span> off. Enter the POLYGON command, as shown below, to draw a hexagon using the Edge method. (Figure 13A and 13B)<\/p>\n

        Command: POL<\/strong><\/p>\n

        POLYGON Enter number of sides <8>: 6 <\/strong><\/p>\n

        Specify center of polygon or [Edge]: E <\/strong><\/p>\n

        Specify first endpoint of edge: (end) <\/em>P1 <\/strong><\/p>\n

        Specify second endpoint of edge: (end) <\/em>P2 <\/strong><\/p>\n

        Command:<\/p>\n

        \"\"
        Figure Step 13A<\/figcaption><\/figure>\n
        \"\"
        Figure Step 13B<\/figcaption><\/figure>\n

        Step 14<\/h2>\n

        Explode both polygons and delete the lines they share. (Figure Step 14)<\/p>\n

        \"\"
        Figure Step 14<\/figcaption><\/figure>\n

        Step 15<\/h2>\n

        Using what you learned in Module 29, use the PEDIT command to create a closed polyline. Using the Properties window, confirm that the polygon you just created is closed. (Figure Step 15)<\/p>\n

         <\/p>\n

        \"\"
        Figure Step 15<\/figcaption><\/figure>\n

        Step 16<\/h2>\n

        The bottom section of your drawing should appear as shown in the figure. (Figure Step 16)<\/p>\n

        \"\"
        Figure Step 16<\/figcaption><\/figure>\n
        USER TIP:<\/strong> While the ELLIPSE command can be used to draw elliptical arcs, it is much easier to draw full ellipses and then trim or break them to the desired size.\"\"<\/div>\n
        \n
        \n

        AutoCAD Command: AREA<\/p>\n<\/header>\n

        \n

        The AREA command is used to find the area or perimeter of a series of coordinates, a closed polyline, circle or ellipse.<\/p>\n

        Shortcut: none<\/strong><\/p>\n

        \"\"
        Measurement Tools Toolbar<\/figcaption><\/figure>\n

        \u00a0<\/strong><\/p>\n

        \"\"
        Tools Pull-down<\/figcaption><\/figure>\n
        \"\"
        Home Ribbon<\/figcaption><\/figure>\n<\/div>\n<\/div>\n
        MUST KNOW:<\/strong> The EXPLODE command converts an open or closed polyline back into their individual line objects. When exploded, polylines will lose their assigned width.<\/div>\n

        WORKALONG: Using the AREA Command<\/span><\/span><\/h1>\n

        Step 1<\/h2>\n

        Open the drawing: AutoCAD 2D Workalong 30-1<\/span>. (Figure Step 1)<\/p>\n

        \"\"
        Figure Step 1<\/figcaption><\/figure>\n

        Step 2<\/h2>\n

        Enter the AREA command, as shown below, to measure the area of the rectangle using the Corner Point method. (Figure Step2)<\/p>\n

        Command: AREA<\/strong><\/p>\n

        Specify first corner point or [Object\/Add\/Subtract]: (end)<\/span> <\/em>P1 <\/strong><\/p>\n

        Specify next corner point or press ENTER for total: (end) <\/em><\/span>P2 <\/strong><\/p>\n

        Specify next corner point or press ENTER for total: (end) <\/em><\/span>P3<\/strong><\/p>\n

        Specify next corner point or press ENTER for total: (end) <\/em><\/span>P4<\/strong><\/p>\n

        Specify next corner point or press ENTER for total: (press Enter)<\/em><\/span><\/p>\n

        (You do not have to snap back to the start point. The AREA command will go back to the first point and calculate the area and perimeter.)<\/em><\/span><\/p>\n

        Area = 22.7500, Perimeter = 20.0000<\/p>\n

        Command:<\/p>\n

        \"\"
        Figure Step 2<\/figcaption><\/figure>\n
        \n

        AUTHOR’S COMMENTS: <\/strong>This is an example of using the point method of finding the area and the perimeter of a series of coordinate locations. The corner point method only works for an area containing lines. It does not work if any one of the sides is an arc.<\/p>\n<\/div>\n

        Step 3<\/h2>\n

        Enter the AREA command, as shown below, to measure the area and perimeter of the rectangle using the Object method. (Figure Step 3)<\/p>\n

        Command: AREA<\/strong><\/p>\n

        Specify first corner point or [Object\/Add\/Subtract]: O<\/strong><\/p>\n

        (Using the Object method.)<\/em><\/span><\/p>\n

        Select objects: P5<\/strong><\/p>\n

        (Select the object. It must be a closed polygon, a circle or an ellipse.)<\/em><\/span><\/p>\n

        Area = 22.7500, Perimeter = 20.0000<\/p>\n

        (This answer will match the results found in Step 2)<\/em><\/span><\/p>\n

        Command:<\/p>\n

        \"\"
        Figure Step 3<\/figcaption><\/figure>\n

        Step 4<\/h2>\n

        Enter the AREA command, as shown below, to measure the area of the rectangle subtracting objects from the overall area. (Figure Step 4)<\/p>\n

        Command: AREA<\/strong><\/p>\n

        Specify first corner point or [Object\/Add\/Subtract]: A<\/strong><\/p>\n

        (Specifying you want to be in Add mode.)<\/span> <\/em><\/p>\n

        Specify first corner point or [Object\/Subtract]: O<\/strong><\/p>\n

        (ADD mode) Select objects: P6<\/strong><\/p>\n

        (Add in the rectangle area.)<\/em><\/span><\/p>\n

        Area = 22.7500, Perimeter = 20.0000<\/p>\n

        Total area = 22.7500<\/p>\n

        (ADD mode) Select objects:<\/p>\n

        (Press enter to end the Add mode)<\/span><\/em><\/p>\n

        Specify first corner point or [Object\/Subtract]: S<\/strong><\/p>\n

        (Beginning the Subtract mode.)<\/em><\/span><\/p>\n

        Specify first corner point or [Object\/Add]: O <\/strong><\/p>\n

        (SUBTRACT mode) Select objects: P7<\/strong><\/p>\n

        Area = 0.1591, Perimeter = 1.8187<\/p>\n

        Total area = 22.5909<\/p>\n

        (SUBTRACT mode) Select objects: P8 <\/strong><\/p>\n

        Area = 0.3183, Perimeter = 2.1000<\/p>\n

        Total area = 22.2726<\/p>\n

        (SUBTRACT mode) Select objects: P9 <\/strong><\/p>\n

        Area = 6.2832, Perimeter = 9.6884<\/p>\n

        Total area = 15.9894<\/p>\n

        (SUBTRACT mode) Select objects: P10<\/strong><\/p>\n

        \"\"
        Figure Step 4<\/figcaption><\/figure>\n

        Area = 0.6365, Perimeter = 3.5000<\/p>\n

        Total area = 15.3529<\/p>\n

        (SUBTRACT mode) Select objects: P11<\/strong><\/p>\n

        Area = 0.2450, Perimeter = 1.9799<\/p>\n

        Total area = 15.1079<\/p>\n

        (SUBTRACT mode) Select objects:<\/p>\n

        (Press Enter to end the Subtract mode.)<\/em><\/span><\/p>\n

        Total area = 15.1079<\/p>\n

        (The area of the overall object minus the 5 inner objects is 15.1079 square inches.)<\/em><\/span><\/p>\n

        Command:<\/p>\n

        Step 5<\/h2>\n

        Enter the AREA command, as shown below, to measure and add the areas of three individual objects. (Figure Step 5)<\/p>\n

        Command: AREA<\/strong><\/p>\n

        Specify first corner point or [Object\/Add\/Subtract]: A<\/strong><\/p>\n

        (Enter the Add mode.)<\/em><\/span><\/p>\n

        Specify first corner point or [Object\/Subtract]: O<\/strong><\/p>\n

        (ADD mode) Select objects: P12 <\/strong><\/p>\n

        Area = 0.1591, Perimeter = 1.8187<\/p>\n

        Total area = 0.1591<\/p>\n

        (ADD mode) Select objects: P13<\/strong><\/p>\n

        Area = 0.2450, Perimeter = 1.9799<\/p>\n

        Total area = 0.4041<\/p>\n

        (ADD mode) Select objects: P14<\/strong><\/p>\n

        Area = 0.6365, Perimeter = 3.5000<\/p>\n

        Total area = 1.0407<\/p>\n

        (The total area of the three objects combined is 1.0407 square inches.)<\/em><\/span><\/p>\n

        Command:<\/p>\n

        \"\"
        Figure Step 5<\/figcaption><\/figure>\n
        AUTHOR’S COMMENTS: <\/strong>The area and perimeter can also be obtained by using the Properties window. The areas to be measured must be closed polygons.<\/div>\n

        Step 6<\/h2>\n

        Open the Properties window and select the large rectangle. The area and the perimeter (length) will display. (Figure Step 6)<\/p>\n

        \"\"
        Figure Step 6<\/figcaption><\/figure>\n

        Step 7<\/h2>\n

        Unselect the rectangle and select the object in the bottom right. The area and the perimeter (length) will display. (Figure Step 7)<\/p>\n

        \"\"
        Figure Step 7<\/figcaption><\/figure>\n

        Geometry Lesson: Degrees Minutes and Seconds<\/h1>\n

        Since a full degree is not always precise enough to measure an angle, you must be able to work to a more precise measurement. Degrees are broken down to smaller and more precise units of minutes<\/span> <\/em>and seconds<\/em><\/span>.<\/p>\n

        1 degree is divided into 60 minutes and 1 minute is divided into 60 seconds:<\/p>\n

        1 degree = 60 minutes<\/p>\n

        1 minute = 60 seconds<\/p>\n

        Therefore, 1 degree = 3600 seconds.<\/p>\n

        Degrees are written 1E, minutes are written 01′ and seconds 01″.<\/p>\n

        Combined: 1<01’01”.<\/p>\n

        Here are some examples of adding and subtracting angles with degree minutes and seconds. Study them and then solve problems A to F below.<\/p>\n

        \"\"<\/p>\n

        Adding and Subtracting Degrees Minutes Seconds<\/h2>\n

        Solve the following problems of adding and subtracting degrees, minutes and seconds. The answers are shown below.<\/p>\n

        \"\"<\/p>\n

        Answers to Adding and Subtracting Degrees Minutes Seconds:<\/h2>\n

        A 105E23’09”<\/p>\n

        B 45E07’25”<\/p>\n

        C 256E42’44”<\/p>\n

        D 26E24’14”<\/p>\n

        E 147E18’22”<\/p>\n

        F 105E19’46”<\/p>\n

        Working in Degrees Minutes and Seconds<\/h2>\n

        Up to this point in the book, all of the angles have been entering using degrees and decimals of a degree. The values of degrees can also be entered using degree\/minutes\/seconds.<\/p>\n

        The Drawing Units dialogue box must be set to report angular units and precision in degree\/minutes\/seconds. The Angle Type must be set to Deg\/Min\/Sec and the Precision set to the value that you want it reported. See Figure 30-5.<\/p>\n

        Since there is no degree symbol on the keyboard, enter the letter \u2018 d \u2018 after the number when entering degrees in response to an AutoCAD prompt.<\/p>\n

        For example: 34d<\/p>\n

        \"\"
        Figure 30-5
        Setting the Angle Type and Precision<\/figcaption><\/figure>\n

        To specify the number of minutes, enter a ‘ (single quote) after the number and to enter seconds, enter a ” (double quote) after the number. See Figure 30-6.<\/p>\n

        For example: 34d56’32” Command: LINE<\/strong><\/p>\n

        Specify first point: 2,2<\/strong><\/p>\n

        Specify next point or [Undo]: @2<34d56’32”<\/strong><\/p>\n

        Specify next point or [Undo]:<\/p>\n

        Command:<\/p>\n

        \"\"
        Figure 30-6
        An Angle Using Deg\/Min\/Sec<\/figcaption><\/figure>\n

         <\/p>\n

        \"\"
        Figure 30-7
        Object Snap Location for Geometric Center
        Note: Geometric Center osnap mode snaps to the centroid of any closed polyline.<\/figcaption><\/figure>\n

        Key Principles<\/h1>\n
        \n
        \n

        Key Principles in Module 30<\/p>\n<\/header>\n

        \n
          \n
        1. A regular polygon is a closed polyline having between 3 and 1,024 equal-length sides and is drawn using the POLYGON command.<\/li>\n
        2. The EXPLODE command converts a polygon made from an open or closed polyline back into its individual line objects. When exploded, polylines will lose their assigned widths.<\/li>\n<\/ol>\n<\/div>\n<\/div>\n

          Lab Exercise 30-1<\/h1>\n

          Time allowed: 60 minutes.<\/p>\n\n\n\n\n
          Drawing Name<\/th>\nTemplate<\/th>\nUnits<\/th>\n<\/tr>\n
          AutoCAD 2D Lab 30-1<\/td>\n2D Layout English<\/td>\nInches<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n

          \u00a0Step 1<\/h2>\n

          On layer: Object<\/span>, draw the object shown in the figures. (Figure Step 1A and 1B)<\/p>\n

          \"\"
          Figure Step 1A
          Completed Drawing<\/figcaption><\/figure>\n
          \"\"
          Figure Step 1B<\/figcaption><\/figure>\n

          Step 2<\/h2>\n

          On layer: Boundary<\/span>, using the PEDIT command, create a closed polygon of the outside outline of the object. (Figure Step 2)<\/p>\n

          \"\"
          Figure Step 2<\/figcaption><\/figure>\n

          Step 3<\/h2>\n

          To the precision of 4 decimal places, find the area and perimeter of the closed polygon created in Step 2.<\/p>\n

          A <\/strong>Area = ___________________<\/p>\n

          B <\/strong>Perimeter = ___________________<\/p>\n

          Step 4<\/h2>\n

          Change the square and the heptagon to appear as shown in the figure. On layer Boundary<\/span>, using the BOUNDARY command, create a closed polygon of the new shape. (Figure Step 4)<\/p>\n

          Step 5<\/h2>\n

          To the precision of 6 decimal places, find the area and perimeter of the closed polygon created in Step 4.<\/p>\n

          A <\/strong>Area = ___________________<\/p>\n

          B <\/strong>Perimeter = ___________________<\/p>\n

          \"\"
          Figure Step 4<\/figcaption><\/figure>\n
          \n

          AUTHOR’S CONSTRUCTION HINTS: <\/strong>Do your best to complete the lab exercise drawing without using the following hint. If you get stuck and cannot complete it on your own, use the following hint to help you.<\/p>\n<\/div>\n

          Hint 1<\/h2>\n

          To draw the 3 radius tangent arc on the top right side of the object, you must draw a tangent circle and then trim it. The FILLET command cannot be used as it will draw the fillet on the inside. Use the CIRCLE command and the TTR option to insert the tangent circle and then trim it. (Figure Hint 1)<\/p>\n

          \"\"
          Figure Hint 1<\/figcaption><\/figure>\n

          Lab Exercise 30-2<\/h1>\n

          Time allowed: 60 minutes.<\/p>\n\n\n\n\n
          Drawing Name<\/th>\nTemplate<\/th>\nUnits<\/th>\n<\/tr>\n
          AutoCAD 2D Lab 30-2<\/td>\n2D Layout English<\/td>\nFeet<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n

          Step 1<\/h2>\n

          Start a new drawing using the template shown above. (Figure Step 1)<\/p>\n

          \"\"
          Figure Step 1
          All Dimensions in are Feet<\/figcaption><\/figure>\n

          Step 2<\/h2>\n

          Using the UNITS command, set the Length type to Engineering, the Angle type to Deg\/Min\/Sec and Units to scale inserted content: to Inches, as shown in the figure. (Figure Step 2)<\/p>\n

          \"\"
          Figure Step 2<\/figcaption><\/figure>\n
          \n

          AUTHOR’S COMMENTS: <\/strong>You are going to be working in the units of feet and decimals of a foot in this drawing. Keep in mind that AutoCAD always wants to work in inches, therefore, all numbers that you input must be followed by the foot mark character. i.e. 500.0′<\/p>\n<\/div>\n

          Step 3<\/h2>\n

          On layer: Lot Lines<\/span>, draw the first line of the model, as shown below: (Figure Step 3A and 3B)<\/p>\n

          Command: LINE<\/strong><\/p>\n

          Specify first point: 200.0′,1200.0<\/strong>‘<\/p>\n

          (Make sure that all numbers are followed by the ‘ character.)<\/span><\/em><\/p>\n

          Specify next point or [Undo]: @1200.0′,0′<\/strong><\/p>\n

          Specify next point or [Undo]:<\/p>\n

          Command: ZOOM<\/strong><\/p>\n

          Specify corner of window, enter a scale factor (nX or nXP), or<\/p>\n

          [All\/Center\/Dynamic\/Extents\/Previous\/Scale\/Window\/Object] <real time>: E <\/strong><\/p>\n

          Regenerating model.<\/p>\n

          Command:<\/p>\n

          \"\"
          Figure Step 3A<\/figcaption><\/figure>\n
          \"\"
          Figure Step 3B<\/figcaption><\/figure>\n
          \n

          AUTHOR’S COMMENTS: <\/strong>The first line you draw will not appear in the current zoomed state of the drawing. After you draw the line, you have to enter the ZOOM Extents command so that you can view it and complete the drawing.<\/p>\n<\/div>\n

          Step 4<\/h2>\n

          On layer: Lot Lines<\/span>, complete the model using the dimensioned drawing shown in Step 1. The input must be is feet and decimals of a foot. (Figure Step 4)<\/p>\n

          \"\"
          Figure Step 4<\/figcaption><\/figure>\n
          \n

          AUTHOR’S COMMENTS MINI-SURVEY PLAN LESSON: <\/strong>The length of the lots, on survey maps, are dimensioned by placing the length dimension parallel and along the lot line it is referring to. The length is measured from corner of the lot to corner of the lot. In Figure 30-8, the distance is 500.0 feet. The pin, small circles at the ends, have nothing to do with the dimensions. They only show where the surveyor has placed a metal pin in the ground when the survey was completed. When you draw the map, draw all the lines and then insert 10 feet diameter circles snapping their centers at the ends of the lines.<\/p>\n

          \"\"
          Figure 30-8<\/figcaption><\/figure>\n<\/div>\n

          Step 5<\/h2>\n

          On layer: Lot Pins<\/span>, draw circles, with 10 foot diameters, to indicate the location of the survey pins. Hint: Draw one circle and copy it to the other locations. (Figure Step 5)<\/p>\n

          \"\"
          Figure Step 5<\/figcaption><\/figure>\n

          Step 6<\/h2>\n

          With INSUNITS set to Inches, insert the key to check your model for accuracy.<\/p>\n

          Step 7<\/h2>\n

          Enable layout: Module Layout C.<\/span> On layer: Viewport<\/span>, create a viewport as shown in the figure. Set the scale to 1:1200 or 0.000833 and lock the display. (Figure Step 7)<\/p>\n

          \"\"
          Figure Step 7<\/figcaption><\/figure>\n

          Step 8<\/h2>\n

          Using the AREA command, find the area of each of the 10 lots. On layer: Text<\/span>, in paper space, insert the text as shown in the figure. Edit the text with the applicable area. Fill in the titleblock. (Figure Step 8)<\/p>\n

          \"\"
          Figure Step 8<\/figcaption><\/figure>\n

          Step 9<\/h2>\n

          In Paper space, on layer: Lot Dimensions<\/span>, insert the dimensions of the lot lines as shown in the figure. On layer: Lot Labels<\/span>, insert text of the street name and the lot numbers. Create your own text style, pick the font and select the text height. (Figure Step 9)<\/p>\n

          \"\"
          Figure Step 9<\/figcaption><\/figure>\n

          Step 10<\/h2>\n

          Turn layer: Viewport<\/span> off to complete the drawing. (Figure Step 10)<\/p>\n

          \"\"
          Figure Step 10<\/figcaption><\/figure>\n
          \n

          AUTHOR’S CONSTRUCTION HINTS: <\/strong>Do your best to complete the lab exercise drawing without using the following hints. If you get stuck and cannot complete it on your own, use the following hints to help you.<\/p>\n<\/div>\n

          Hint 1<\/h2>\n

          To draw the arc in the center, first draw two 150 foot diameter circles on layer: Construction<\/span>. Use the ends of the lot lines as the center locations. Where the circles intersect is the center of the 150 foot diameter arc. Draw a circle and then trim it. (Figure Hint 1A and 1B).<\/p>\n

          \"\"
          Figure Hint 1A<\/figcaption><\/figure>\n
          \"\"
          Figure Hint 1B<\/figcaption><\/figure>\n

          Hint 2<\/h2>\n

          Figure Hint 2A to 2F will help you calculate the angles.<\/p>\n

          \"\"
          Figure Hint 2A<\/figcaption><\/figure>\n
          \"\"
          Figure Hint 2B<\/figcaption><\/figure>\n
          \"\"
          Figure Hint 2C<\/figcaption><\/figure>\n
          \"\"
          Figure Hint 2D<\/figcaption><\/figure>\n
          \"\"
          Figure Hint 2E<\/figcaption><\/figure>\n
          \"\"
          Figure Hint 2F<\/figcaption><\/figure>\n","protected":false},"author":90,"menu_order":4,"template":"","meta":{"pb_show_title":"on","pb_short_title":"","pb_subtitle":"","pb_authors":[],"pb_section_license":""},"chapter-type":[],"contributor":[],"license":[],"class_list":["post-1565","chapter","type-chapter","status-publish","hentry"],"part":1327,"_links":{"self":[{"href":"https:\/\/opentextbc.ca\/autocad2d\/wp-json\/pressbooks\/v2\/chapters\/1565","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/opentextbc.ca\/autocad2d\/wp-json\/pressbooks\/v2\/chapters"}],"about":[{"href":"https:\/\/opentextbc.ca\/autocad2d\/wp-json\/wp\/v2\/types\/chapter"}],"author":[{"embeddable":true,"href":"https:\/\/opentextbc.ca\/autocad2d\/wp-json\/wp\/v2\/users\/90"}],"version-history":[{"count":1,"href":"https:\/\/opentextbc.ca\/autocad2d\/wp-json\/pressbooks\/v2\/chapters\/1565\/revisions"}],"predecessor-version":[{"id":1566,"href":"https:\/\/opentextbc.ca\/autocad2d\/wp-json\/pressbooks\/v2\/chapters\/1565\/revisions\/1566"}],"part":[{"href":"https:\/\/opentextbc.ca\/autocad2d\/wp-json\/pressbooks\/v2\/parts\/1327"}],"metadata":[{"href":"https:\/\/opentextbc.ca\/autocad2d\/wp-json\/pressbooks\/v2\/chapters\/1565\/metadata\/"}],"wp:attachment":[{"href":"https:\/\/opentextbc.ca\/autocad2d\/wp-json\/wp\/v2\/media?parent=1565"}],"wp:term":[{"taxonomy":"chapter-type","embeddable":true,"href":"https:\/\/opentextbc.ca\/autocad2d\/wp-json\/pressbooks\/v2\/chapter-type?post=1565"},{"taxonomy":"contributor","embeddable":true,"href":"https:\/\/opentextbc.ca\/autocad2d\/wp-json\/wp\/v2\/contributor?post=1565"},{"taxonomy":"license","embeddable":true,"href":"https:\/\/opentextbc.ca\/autocad2d\/wp-json\/wp\/v2\/license?post=1565"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}