Design & Communication Graphics Ordinary Level Section A (60 Marks)

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M.84A ªM.844 Leaving Certificate Examination, 2009 Design & Communication Graphics Ordinary Level Section A (60 Marks) Time: 3 Hours This examination is divided into three sections: SECTION A SECTION B SECTION C (Core - Short Questions) (Core - Long Questions) (Applied Graphics - Long Questions) SECTION A Four questions are presented Answer any three on the A3 sheet overleaf All questions in Section A carry 20 marks SECTION B Three questions are presented Answer any two on A3 drawing paper All questions in Section B carry 45 marks This Contour Map is part of Section C and should only be used for the answering of the Geologic Geometry Option (Question C-4) SECTION C Five questions are presented Answer any two (i.e. the options you have studied) on the A3 drawing paper All questions in Section C carry 45 marks General Instructions: Construction lines must be shown on all solutions Write the question number distinctly on the answer paper in Sections B and C Work on one side of the paper only All dimensions are given in metres or millimetres Write your name, school name and teacher name in the box below and on all other sheets used Name: School Name: Teacher Name: 2009 M.84_A 1/16 Page 1 of 3

SECTION A - Core - Answer Any Three of the questions on this A3 sheet A-1. A photograph of a parabolic bridge is shown. The drawing shows its directrix AB and a tangent CD to the curve at the vertex. The incomplete diagram shows the directrix AB and two points on the curve. D C A-3. The drawing shows the plan and elevation of a building. The outline of the base is shown in isometric. Complete the isometric drawing of the building. Locate the focus and vertex and draw the parabola. A B A-2. The drawing shows the plan and partially completed perspective drawing of a house. The house is also shown in the 3D graphic below. Complete the perspective drawing. A-4. The drawing shows the plan and elevation of a litter bin. A 3D graphic is also shown below. Find the true shape of the opening by: (i) Using an auxiliary plan. OR (ii) Rotating the cut surface. This examination paper must be returned at the end of the Examination You must include your Name, School Name and Teacher s Name on the front cover 2009 M.84_A 2/16 2009 M.84_A 15/16

M.84BC Leaving Certificate Examination, 2009 Design & Communication Graphics Ordinary Level Section B and C (180 Marks) Time: 3 Hours This examination is divided into three sections: SECTION A (Core - Short Questions) SECTION B (Core - Long Questions) SECTION C (Applied Graphics - Long Questions) SECTION A Four questions are presented Answer any three on the accompanying A3 examination paper All questions in Section A carry 20 marks SECTION B Three questions are presented Answer any two on A3 drawing paper All questions in Section B carry 45 marks SECTION C Five questions are presented Answer any two (i.e. the options you have studied) on the A3 drawing paper All questions in Section C carry 45 marks General Instructions: Construction lines must be shown on all solutions Write the question number distinctly on the answer paper in Sections B and C Work on one side of the paper only All dimensions are given in metres or millimetres Write your name, school name and teacher name in the box provided on Section A and on all other sheets used 2009 M.84_B/C 3/16 Page 1 of 9 2009 M.84_B/C 3/16

SECTION B - Core Answer Any Two questions from this section on A3 drawing paper B-1. The 3D graphic on the right shows a tee-box marker as used in a golf club. The drawing in Fig. B-1 below shows how the tee-box marker is cut to form the sloping surfaces. The tee-box marker consists of a cylinder of 50mm diameter and 55mm altitude. The cylinder stands on a cuboid as shown. (a) Draw the given plan and elevation. (Use a vertical orientation for the A3 sheet to maximise space.) (b) Draw the projections of the tee-box marker when cut by the oblique plane VTH. Scale 1:1 Fig. B-1 2009 M.84_B/C 4/16 Page 2 of 9

B-2. The 3D graphic on the right shows a traffic direction bollard which is used in a car park. Fig. B-2 below shows the plan and elevation of the bollard. It consists of a part spherical top and a truncated conical base. The middle portion is a cylinder. The sign which includes an arrow appears as a circle in elevation. Draw the given plan and elevation. Project an end elevation of the bollard which will include the outline of the sign. Note: The elevation shows an arrow on the sign which may be ignored for the purpose of your drawing. Scale 1:1 Fig. B-2 2009 M.84_B/C 5/16 Page 3 of 9

B-3. The photograph shows a football, a child s basketball and a training cone sitting on a horizontal surface. All three solids are in contact with each other. Fig. B-3 below shows the plan and elevation of the training cone and the football which are in contact as shown. (a) Draw the given plan and elevation. (b) Draw the plan and elevation of the basketball which has a diameter of 160mm, in contact with the cone and the football as shown in the photograph. Scale 1:2 Fig. B-3 2009 M.84_B/C 6/16 Page 4 of 9

SECTION C - Applied Graphics Answer Any Two questions (i.e. the options you have studied) from this section on A3 drawing paper Dynamic Mechanisms C-1. (a) Fig. C-1(a) shows the elevation and plan of a model water storage tower. A staircase is required to travel from point A at the top of the water tower to point B at the base. To maintain gradient and minimise distance a helical path is proposed. (i) Draw the plan and elevation of the water tower. (ii) Draw the path of the helix which travels from point A to point B in one revolution. Scale 1:1 Fig. C-1(a) (b) The diagram in Fig. C-1(b) shows the outline of an up and over garage door in a partially open position. Point B moves along the line EF while points E and C pivot as the door opens and closes. (i) Draw a line diagram to represent the garage door in the given position. (ii) Find the position of point A when the door is fully opened (when point B has reached point E). (iii) Plot the locus of point A as the door closes from an opened position. Scale 1:20 Fig. C-1(b) 2009 M.84_B/C 7/16 Page 5 of 9

Structural Forms C-2. (a) Fig. C-2(a) shows the plan and elevation of the roof of a model church. A 3D graphic of the model is also shown. The roof of the main building is in the form of a hyperbolic paraboloid and the front surface of the entrance porch is a parabola. (i) Draw the given plan and elevation. (ii) Determine the curvature along the line BD. Scale 1:10 Fig. C-2(a) (b) The plan and elevation of the entrance to the church is shown in Fig. C-2(b). The curve EFG is a parabola in elevation. (i) On a separate diagram draw the given plan and elevation. (ii) Project an end elevation in the direction of the arrow. Scale 1:10 Fig. C-2(b) 2009 M.84_B/C 8/16 Page 6 of 9

Surface Geometry C-3. The 3D graphic shows a scoop used in a pick-and-mix sweet shop. It consists of four plane surfaces. Surfaces A and C are inclined at 65 to the horizontal plane and the surface B is inclined at 55 to the horizontal plane. (a) Draw the plan and elevation of the scoop as given in Fig. C-3 below. (b) Determine the dihedral angle between the surfaces A and B. (c) Draw a one-piece surface development of the surfaces A, B, C and D. (d) Show the plan of the shortest path that can be plotted between points m and n along the surfaces A, D and C. Scale 1:1 Fig. C-3 2009 M.84_B/C 9/16 Page 7 of 9

Geologic Geometry C-4. The accompanying map, located on the back page of section A, shows ground contours at five metre vertical intervals. (a) On the drawing supplied, draw a vertical section (profile) on the line AB. (b) CD is the centreline of a proposed roadway which is level at an altitude of 60m. Using side slopes of 1 in 1 for the embankments, complete the earthworks necessary to accommodate the roadway. (Note: The earthworks on the southern side of the roadway have already been completed.) (c) E, F and G are outcrop points on the surface of a stratum of ore. Determine the dip and strike of the stratum. Scale 1:1000 2009 M.84_B/C 10/16 Page 8 of 9

Assemblies C-5. Details of a Pizza Cutter assembly are given in Fig. C-5 with the parts list tabulated on the right. A photograph of the assembled Pizza Cutter is also shown. Draw a plan and elevation of the assembly and project an end view. Scale 1:1 PART NAME REQUIRED 1 Wheel 1 2 Prong 1 3 Handle 1 4 Insert 1 5 Safety Plate 1 6 M10 Bolt 1 Fig. C-5 2009 M.84_B/C 11/16 Page 9 of 9

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