This document contains 8 engineering graphics questions sets with multiple questions in each set. The questions involve technical drawing topics like orthographic projections, isometric views, development of surfaces, and perspective drawings. Students are instructed to answer any 5 questions out of the 8 questions provided in each set. The questions provide detailed descriptions and diagrams of 3D objects and ask students to produce various 2D technical drawings showing views, measurements, and geometric constructions of the objects.
Engineering Drawing Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
The document appears to be a study guide or practice exam for an Engineering Drawing course. It contains 8 questions related to technical drawing topics like drawing projections of points, lines, planes, and 3D shapes. Students are instructed to answer any 5 of the 8 questions, which provide detailed instructions and sometimes diagrams for drawing various geometric objects and finding specific views, dimensions, or angles based on given information. The questions cover topics like drawing ellipses, hyperbolas, tangents, normals, and multi-view projections of objects oriented in different positions.
The document contains an exam for Engineering Graphics with 8 questions. It provides the questions, diagrams, and instructions for students to complete multiple choice or short answer questions related to topics in Engineering Graphics including:
- Tracing the path of a point on a rolling circle and drawing tangents and normals to the curve.
- Drawing projections of lines and determining true lengths.
- Drawing projections of inclined planes and finding lines of intersection between solids.
- Developing surfaces of objects and drawing views of objects from given projections.
The questions cover a range of skills in technical drawing, multi-view projections, and geometry. Students are instructed to answer any 5 of the 8 questions provided. Diagrams are included to
This document contains a question bank for the subject Engineering Graphics. It includes questions on constructing various curves like hyperbolas, ellipses, parabolas, cycloids and involutes. It also includes questions on projections of points, lines, plane surfaces and solids. There are questions on sectioning of solids and development of surfaces. The last section includes questions on isometric projections of truncated solids. The questions cover topics like drawing projections, determining true lengths and inclinations, drawing sections, developments and isometric views.
R05010107 E N G I N E E R I N G G R A P H I C Sguestd436758
This document contains information about an engineering graphics exam, including 8 questions on topics like scales, projections, intersections of solids, and perspectives. The exam is for multiple engineering disciplines and consists of 5 questions to be answered out of the 8 provided, with each question worth 16 marks. The questions cover technical drawing concepts and ask students to construct various geometric shapes and projections.
The document contains 12 exercises involving the projections of various geometric shapes and solids including lines, planes, prisms, pyramids, cones and composite solids. Many of the exercises involve determining lengths, angles of inclination, traces, true shapes, developments of cut surfaces, and shortest paths on developments. The shapes and solids are presented in various orientations and cut by various section planes.
This document contains four sets of questions for an Engineering Drawing examination. Each set contains 8 questions related to topics in engineering drawing like orthographic projections, isometric projections, and perspective projections. The questions involve drawing various geometric shapes and objects like cones, cylinders, prisms and pyramids in different orientations and locations. They also involve cutting objects with planes, finding curves of intersection, and developing surfaces. The questions require applying concepts like projections, penetrations, orientations and visualizing 3D objects from different views.
The document contains a question bank for the course GE 2111 - Engineering Graphics. It includes questions on topics like ellipses, parabolas, hyperbolas, cycloids, involutes, orthographic projections from pictorial views, projection of points and lines, projection of planes and solids, and section of solids. Specifically, it provides 15 questions on ellipses and related curves, 10 questions on orthographic projections from pictures, 12 questions on projection of lines, 15 questions on projection of planes and solids, and 3 questions on section of solids. The questions require skills like construction of curves, drawing projections, finding true lengths and inclinations, and obtaining sections of objects.
This document provides 6 problems involving the projections of straight lines. The problems involve drawing the projections of lines in different orientations and determining their true lengths, inclinations, and traces. Additional exercises involve applications of lines such as determining distances between points in rooms, between poles, and along roads of varying slopes.
Engineering Drawing Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
The document appears to be a study guide or practice exam for an Engineering Drawing course. It contains 8 questions related to technical drawing topics like drawing projections of points, lines, planes, and 3D shapes. Students are instructed to answer any 5 of the 8 questions, which provide detailed instructions and sometimes diagrams for drawing various geometric objects and finding specific views, dimensions, or angles based on given information. The questions cover topics like drawing ellipses, hyperbolas, tangents, normals, and multi-view projections of objects oriented in different positions.
The document contains an exam for Engineering Graphics with 8 questions. It provides the questions, diagrams, and instructions for students to complete multiple choice or short answer questions related to topics in Engineering Graphics including:
- Tracing the path of a point on a rolling circle and drawing tangents and normals to the curve.
- Drawing projections of lines and determining true lengths.
- Drawing projections of inclined planes and finding lines of intersection between solids.
- Developing surfaces of objects and drawing views of objects from given projections.
The questions cover a range of skills in technical drawing, multi-view projections, and geometry. Students are instructed to answer any 5 of the 8 questions provided. Diagrams are included to
This document contains a question bank for the subject Engineering Graphics. It includes questions on constructing various curves like hyperbolas, ellipses, parabolas, cycloids and involutes. It also includes questions on projections of points, lines, plane surfaces and solids. There are questions on sectioning of solids and development of surfaces. The last section includes questions on isometric projections of truncated solids. The questions cover topics like drawing projections, determining true lengths and inclinations, drawing sections, developments and isometric views.
R05010107 E N G I N E E R I N G G R A P H I C Sguestd436758
This document contains information about an engineering graphics exam, including 8 questions on topics like scales, projections, intersections of solids, and perspectives. The exam is for multiple engineering disciplines and consists of 5 questions to be answered out of the 8 provided, with each question worth 16 marks. The questions cover technical drawing concepts and ask students to construct various geometric shapes and projections.
The document contains 12 exercises involving the projections of various geometric shapes and solids including lines, planes, prisms, pyramids, cones and composite solids. Many of the exercises involve determining lengths, angles of inclination, traces, true shapes, developments of cut surfaces, and shortest paths on developments. The shapes and solids are presented in various orientations and cut by various section planes.
This document contains four sets of questions for an Engineering Drawing examination. Each set contains 8 questions related to topics in engineering drawing like orthographic projections, isometric projections, and perspective projections. The questions involve drawing various geometric shapes and objects like cones, cylinders, prisms and pyramids in different orientations and locations. They also involve cutting objects with planes, finding curves of intersection, and developing surfaces. The questions require applying concepts like projections, penetrations, orientations and visualizing 3D objects from different views.
The document contains a question bank for the course GE 2111 - Engineering Graphics. It includes questions on topics like ellipses, parabolas, hyperbolas, cycloids, involutes, orthographic projections from pictorial views, projection of points and lines, projection of planes and solids, and section of solids. Specifically, it provides 15 questions on ellipses and related curves, 10 questions on orthographic projections from pictures, 12 questions on projection of lines, 15 questions on projection of planes and solids, and 3 questions on section of solids. The questions require skills like construction of curves, drawing projections, finding true lengths and inclinations, and obtaining sections of objects.
This document provides 6 problems involving the projections of straight lines. The problems involve drawing the projections of lines in different orientations and determining their true lengths, inclinations, and traces. Additional exercises involve applications of lines such as determining distances between points in rooms, between poles, and along roads of varying slopes.
This document contains four engineering drawing examination papers from Jawaharlal Nehru Technological University. Each paper contains 8 multi-part drawing and math problems related to topics like curves, scales, projections, developments, intersections and perspectives. The problems involve geometric shapes like circles, cylinders, prisms, pyramids and their positions in space. Students were asked to complete 5 out of the 8 problems in each paper and show their work to obtain partial marks.
This document contains 8 questions related to engineering drawing for an examination. The questions cover topics like constructing scales, drawing projections of objects, curves of loci, developments of surfaces, and perspective views. The document provides diagrams and specific dimensions for objects described in several questions. Students are asked to answer any 5 of the 8 questions, which involve skills like drawing projections, determining true lengths, plotting curves of intersections, and constructing isometric and perspective views.
This document contains instructions and questions for an engineering graphics midterm exam. It includes 22 problems involving the construction of ellipses, parabolas, hyperbolas, cycloids, epicycloids, hypocycloids, involutes and scales. Students must come to the exam with their drawing book containing neat drawings of all 22 problems. They also need to submit their work up to problem 14 in a drawing file. Attendance is mandatory and absence will result in a zero exam score as well as punishment. No one can enter the exam without their instruments, an empty drawing sheet, completed drawing file and drawing book.
The document provides 19 examples of geometric solids with various orientations being cut by section planes. For each example, the dimensions of the solid and details of how it is cut are given, and the problem asks the reader to draw various views and determine true shapes of the sections.
All given topics covered with animations how to solve problem of E.G.
1. Scales
2. Engineering Curves - I
3. Engineering Curves - II
4. Loci of Points
5. Orthographic Projections - Basics
6. Conversion of Pictorial View into Orthographic Views
7. Projections of Points and Lines
8. Projection of Planes
9. Projection of Solids
10. Sections & Development
11. Intersection of Surfaces
12. Isometric Projections
13. Exercises
14. Solutions – Applications of Lines
Isometric projection is a method of visually representing three-dimensional objects in two dimensions at a set of fixed angles. Specifically, the three axes are shown equally foreshortened at 120 degree angles to each other. This projection technique is commonly used in technical drawings and video game graphics to depict 3D environments. While it maintains object measurements, isometric projection distorts perspective in a way that can make depth perception difficult. As such, it fell out of favor for 3D graphics but saw renewed use in indie video games.
This document provides information on principal lines in multi-view drawings. It defines three types of principal lines - horizontal, frontal, and profile lines. It explains that principal lines appear in their true length in the principal projection plane they are parallel to. It provides two sample problems demonstrating how to determine the true length of lines by analyzing their orientation relative to the projection planes and using principles of multi-view drawings. It concludes with two practice problems for the reader to complete the missing views.
1. The document is an engineering graphics laboratory manual that provides instructions and examples for students. It includes reference materials, required drawing equipment, guidelines for drawings, and examples of problems to practice different types of geometric constructions and projections.
2. The manual covers topics like title blocks, line types, geometric constructions, dimensioning systems, projections of lines and planes, projections of solids, and sections of solids. It provides step-by-step instructions on how to set up drawings and examples of problems for different student groups to practice specific skills.
3. The examples range from constructing geometric shapes to projecting lines and objects in different orientations, as well as dimensioning drawings. The problems are divided into batches for different
This document presents a novel simulation model for face milling that has been developed and embedded in a CAD environment. The model simulates tool kinematics precisely and considers the effect of cutting geometry on surface roughness. The accuracy of the simulation model was verified through experiments. The model can determine optimal cutting conditions for face milling and can be integrated into CAD/CAM systems. It simulates the tool and workpiece movements to calculate cutting forces and surface topography at each step of the milling process in 3D.
This document presents a theoretical method for estimating the machined surface profile in ball-nosed end milling without actual machining. The method derives fundamental simultaneous equations to identify the cusp height at any point on the workpiece based on the geometric relationship between the cutting edge movement and the normal line at that point. Numerical calculations using these equations can graphically estimate and illustrate the machined surface profile. Results show that maximum and minimum cusp heights exist within a narrow range of tool orientation less than 3 degrees near the normal direction.
The document provides information on the 20MEGO1 - Engineering Graphics course offered at Sri Ramakrishna Institute of Technology, Coimbatore. The objectives of the course are to impart knowledge on interpreting engineering drawings and communicating concepts through graphical representations per engineering standards. The course outcomes include the ability to interpret and construct geometric entities, orthographic projections, and develop various projections of solids, sections, and surfaces. The syllabus is divided into 5 modules covering topics like curve constructions, orthographic projections, projections of points lines and planes, projections of solids, sections and developments of surfaces, and isometric and perspective projections. References for the course are also provided.
The document discusses key aspects of isometric sketches. It notes that isometric axes intersect at 120 degree angles. Isometric lines are parallel to these axes while non-isometric lines are not. The offset location measurement method uses parallelism to locate points and can draw normal, inclined, and oblique surfaces. True or false questions clarify that triangle angles do not directly transfer to isometrics and hidden lines/centerlines are used sparingly if at all in isometric drawings.
Navy presentation to the Moffett Field Restoration Advisory Board, September 11, 2008: Hangar One Engineering Evaluation/Cost Analysis Detailed Cost Estimate
This document discusses different types of capital cost estimates for projects with increasing levels of accuracy:
1. Order of magnitude estimates (25-15% accuracy) use existing plant data for capacity and inflation adjustments.
2. Study estimates (30-20% accuracy) roughly size major equipment.
3. Preliminary design estimates (25-15% accuracy) include major equipment, piping, instrumentation, and electrical costs.
The total capital cost includes direct costs, indirect costs, contingency, fees, and auxiliary facilities. Direct costs cover equipment, materials, labor, freight, and taxes. Indirect costs include construction overhead and engineering expenses.
Lecture # 3 compounding factors effects of inflationBich Lien Pham
This document summarizes key concepts for determining unknown interest rates, inflation rates, and numbers of periods in engineering economy problems. It discusses using the IRR, RATE, and NPER functions in Excel to calculate unknown values. It also covers handling varying interest rates over time through period-by-period analysis or approximation using an average rate. The effects of inflation are explained, including how future costs are estimated using an inflation rate. Common inflation measures like the Consumer Price Index are also introduced.
03 Chemical Engineering Plant Design And Economicsguestac67362
The document is a past exam paper for a Chemical Engineering Plant Design and Economics course. It contains 8 multi-part questions testing various concepts related to plant design, economics, and capital investment analysis. Specifically, it examines topics such as batch vs continuous operation, methods for estimating capital investment, components of fixed charges, taxation, depreciation methods, rate of return analysis, and optimization of plant design. Students were required to answer any 5 of the 8 questions in the 3 hour exam.
This document is a lecture on cost estimation that covers several topics:
1) It discusses capital costs including fixed capital and working capital.
2) It explains the breakdown of total product costs including manufacturing costs, general expenses, and their typical percentages.
3) It provides examples of cost estimation problems from referenced textbooks, showing calculations for direct costs, indirect costs, depreciation, taxes, net profit, and cash flow.
This document discusses methods for estimating capital and product costs. It describes several methods for estimating capital costs, including: (1) a detailed-item estimate, (2) a unit cost estimate based on existing data, and (3) estimating other capital costs as percentages of the delivered equipment cost. It also covers the power factor method of scaling costs based on capacity, as well as estimating capital using the turnover ratio. The document provides an overview of cost components and recommends methods suited to different levels of estimate accuracy needed.
This document discusses methods for preliminary cost estimates of construction projects. It defines preliminary estimates as a way to forecast potential project costs early in the design process. Three common methods are described: unit method, which estimates costs based on units like students or beds; cubic method, which calculates volumetric costs; and floor area method, which estimates costs per square meter. Each method has advantages like speed but also disadvantages like lack of design detail. Experience is needed to select the appropriate preliminary estimate method based on available information and project type.
The document provides tips for effectively learning English. It recommends taking an active approach to learning, such as writing journals in English, reading books and guessing meanings of unfamiliar words, rewriting class notes, watching English television and movies, and keeping a vocabulary notebook. It also stresses the importance of speaking English regularly with friends and maintaining a positive mindset to continue improving one's English skills over time.
This document contains four engineering drawing examination papers from Jawaharlal Nehru Technological University. Each paper contains 8 multi-part drawing and math problems related to topics like curves, scales, projections, developments, intersections and perspectives. The problems involve geometric shapes like circles, cylinders, prisms, pyramids and their positions in space. Students were asked to complete 5 out of the 8 problems in each paper and show their work to obtain partial marks.
This document contains 8 questions related to engineering drawing for an examination. The questions cover topics like constructing scales, drawing projections of objects, curves of loci, developments of surfaces, and perspective views. The document provides diagrams and specific dimensions for objects described in several questions. Students are asked to answer any 5 of the 8 questions, which involve skills like drawing projections, determining true lengths, plotting curves of intersections, and constructing isometric and perspective views.
This document contains instructions and questions for an engineering graphics midterm exam. It includes 22 problems involving the construction of ellipses, parabolas, hyperbolas, cycloids, epicycloids, hypocycloids, involutes and scales. Students must come to the exam with their drawing book containing neat drawings of all 22 problems. They also need to submit their work up to problem 14 in a drawing file. Attendance is mandatory and absence will result in a zero exam score as well as punishment. No one can enter the exam without their instruments, an empty drawing sheet, completed drawing file and drawing book.
The document provides 19 examples of geometric solids with various orientations being cut by section planes. For each example, the dimensions of the solid and details of how it is cut are given, and the problem asks the reader to draw various views and determine true shapes of the sections.
All given topics covered with animations how to solve problem of E.G.
1. Scales
2. Engineering Curves - I
3. Engineering Curves - II
4. Loci of Points
5. Orthographic Projections - Basics
6. Conversion of Pictorial View into Orthographic Views
7. Projections of Points and Lines
8. Projection of Planes
9. Projection of Solids
10. Sections & Development
11. Intersection of Surfaces
12. Isometric Projections
13. Exercises
14. Solutions – Applications of Lines
Isometric projection is a method of visually representing three-dimensional objects in two dimensions at a set of fixed angles. Specifically, the three axes are shown equally foreshortened at 120 degree angles to each other. This projection technique is commonly used in technical drawings and video game graphics to depict 3D environments. While it maintains object measurements, isometric projection distorts perspective in a way that can make depth perception difficult. As such, it fell out of favor for 3D graphics but saw renewed use in indie video games.
This document provides information on principal lines in multi-view drawings. It defines three types of principal lines - horizontal, frontal, and profile lines. It explains that principal lines appear in their true length in the principal projection plane they are parallel to. It provides two sample problems demonstrating how to determine the true length of lines by analyzing their orientation relative to the projection planes and using principles of multi-view drawings. It concludes with two practice problems for the reader to complete the missing views.
1. The document is an engineering graphics laboratory manual that provides instructions and examples for students. It includes reference materials, required drawing equipment, guidelines for drawings, and examples of problems to practice different types of geometric constructions and projections.
2. The manual covers topics like title blocks, line types, geometric constructions, dimensioning systems, projections of lines and planes, projections of solids, and sections of solids. It provides step-by-step instructions on how to set up drawings and examples of problems for different student groups to practice specific skills.
3. The examples range from constructing geometric shapes to projecting lines and objects in different orientations, as well as dimensioning drawings. The problems are divided into batches for different
This document presents a novel simulation model for face milling that has been developed and embedded in a CAD environment. The model simulates tool kinematics precisely and considers the effect of cutting geometry on surface roughness. The accuracy of the simulation model was verified through experiments. The model can determine optimal cutting conditions for face milling and can be integrated into CAD/CAM systems. It simulates the tool and workpiece movements to calculate cutting forces and surface topography at each step of the milling process in 3D.
This document presents a theoretical method for estimating the machined surface profile in ball-nosed end milling without actual machining. The method derives fundamental simultaneous equations to identify the cusp height at any point on the workpiece based on the geometric relationship between the cutting edge movement and the normal line at that point. Numerical calculations using these equations can graphically estimate and illustrate the machined surface profile. Results show that maximum and minimum cusp heights exist within a narrow range of tool orientation less than 3 degrees near the normal direction.
The document provides information on the 20MEGO1 - Engineering Graphics course offered at Sri Ramakrishna Institute of Technology, Coimbatore. The objectives of the course are to impart knowledge on interpreting engineering drawings and communicating concepts through graphical representations per engineering standards. The course outcomes include the ability to interpret and construct geometric entities, orthographic projections, and develop various projections of solids, sections, and surfaces. The syllabus is divided into 5 modules covering topics like curve constructions, orthographic projections, projections of points lines and planes, projections of solids, sections and developments of surfaces, and isometric and perspective projections. References for the course are also provided.
The document discusses key aspects of isometric sketches. It notes that isometric axes intersect at 120 degree angles. Isometric lines are parallel to these axes while non-isometric lines are not. The offset location measurement method uses parallelism to locate points and can draw normal, inclined, and oblique surfaces. True or false questions clarify that triangle angles do not directly transfer to isometrics and hidden lines/centerlines are used sparingly if at all in isometric drawings.
Navy presentation to the Moffett Field Restoration Advisory Board, September 11, 2008: Hangar One Engineering Evaluation/Cost Analysis Detailed Cost Estimate
This document discusses different types of capital cost estimates for projects with increasing levels of accuracy:
1. Order of magnitude estimates (25-15% accuracy) use existing plant data for capacity and inflation adjustments.
2. Study estimates (30-20% accuracy) roughly size major equipment.
3. Preliminary design estimates (25-15% accuracy) include major equipment, piping, instrumentation, and electrical costs.
The total capital cost includes direct costs, indirect costs, contingency, fees, and auxiliary facilities. Direct costs cover equipment, materials, labor, freight, and taxes. Indirect costs include construction overhead and engineering expenses.
Lecture # 3 compounding factors effects of inflationBich Lien Pham
This document summarizes key concepts for determining unknown interest rates, inflation rates, and numbers of periods in engineering economy problems. It discusses using the IRR, RATE, and NPER functions in Excel to calculate unknown values. It also covers handling varying interest rates over time through period-by-period analysis or approximation using an average rate. The effects of inflation are explained, including how future costs are estimated using an inflation rate. Common inflation measures like the Consumer Price Index are also introduced.
03 Chemical Engineering Plant Design And Economicsguestac67362
The document is a past exam paper for a Chemical Engineering Plant Design and Economics course. It contains 8 multi-part questions testing various concepts related to plant design, economics, and capital investment analysis. Specifically, it examines topics such as batch vs continuous operation, methods for estimating capital investment, components of fixed charges, taxation, depreciation methods, rate of return analysis, and optimization of plant design. Students were required to answer any 5 of the 8 questions in the 3 hour exam.
This document is a lecture on cost estimation that covers several topics:
1) It discusses capital costs including fixed capital and working capital.
2) It explains the breakdown of total product costs including manufacturing costs, general expenses, and their typical percentages.
3) It provides examples of cost estimation problems from referenced textbooks, showing calculations for direct costs, indirect costs, depreciation, taxes, net profit, and cash flow.
This document discusses methods for estimating capital and product costs. It describes several methods for estimating capital costs, including: (1) a detailed-item estimate, (2) a unit cost estimate based on existing data, and (3) estimating other capital costs as percentages of the delivered equipment cost. It also covers the power factor method of scaling costs based on capacity, as well as estimating capital using the turnover ratio. The document provides an overview of cost components and recommends methods suited to different levels of estimate accuracy needed.
This document discusses methods for preliminary cost estimates of construction projects. It defines preliminary estimates as a way to forecast potential project costs early in the design process. Three common methods are described: unit method, which estimates costs based on units like students or beds; cubic method, which calculates volumetric costs; and floor area method, which estimates costs per square meter. Each method has advantages like speed but also disadvantages like lack of design detail. Experience is needed to select the appropriate preliminary estimate method based on available information and project type.
The document provides tips for effectively learning English. It recommends taking an active approach to learning, such as writing journals in English, reading books and guessing meanings of unfamiliar words, rewriting class notes, watching English television and movies, and keeping a vocabulary notebook. It also stresses the importance of speaking English regularly with friends and maintaining a positive mindset to continue improving one's English skills over time.
This document discusses various methods for estimating capital costs for chemical engineering projects. It describes different types of cost estimates ranging from order-of-magnitude to detailed estimates. It also covers adjusting costs based on changes in equipment capacity and time. Methods like Lang factors, module cost approach, and total plant cost estimates are outlined. Factors like materials, pressure, and temperature that influence capital costs are also addressed.
This document contains 4 sets of questions for an Engineering Drawing exam. Each set contains 8 multi-part questions related to technical drawing topics like orthographic projection, isometric projection, curves of intersection, and perspective projection. The questions provide detailed descriptions of 3D geometric objects and solids, and ask students to draw the front, top, and side views or provide other requested projections based on the given information.
This document contains four sets of questions for an Engineering Drawing exam. Each set contains 8 multi-part drawing and visualization questions related to topics like orthographic projections, isometric views, and perspective drawings. Dimensions and descriptions are provided for geometric shapes and configurations to be depicted. The questions cover a range of national curriculum topics for the subject and assess 2D and 3D spatial reasoning and technical drawing skills.
This document is an exam question paper that contains 5 questions related to engineering graphics. Each question contains multiple parts related to drawing projections or views of different geometric shapes and objects. Specifically:
- Question 1 involves drawing the projections of a parabola or tracing the path of a string wound around a circle.
- Question 2 involves drawing orthographic or isometric projections of objects like an inclined stick or a rhombus representing a cube.
- Question 3 involves drawing the projections of a cube or square pyramid.
- Question 4 involves drawing sectional views of objects like a cylinder with a hexagonal slot or a pentagonal pyramid cut by a plane.
- Question 5 involves drawing an isometric
The document contains multiple questions related to technical drawing and geometry concepts. It includes questions asking to:
1) Construct scales and mark lengths on them to represent distances.
2) Draw various curves and determine properties like foci and tangents.
3) Draw projections of points and lines and determine their properties.
4) Draw projections and developments of various objects like prisms, pyramids and cones.
5) Draw isometric views of objects shown in multiple views.
This document contains an engineering graphics examination paper from November/December 2018. The paper contains 5 questions with multiple parts each related to technical drawing concepts. Question 1 involves drawing the front, top, and side views of an object and sketching the curve traced by the end of an unwinding cable. Question 2 involves finding projections, inclinations, and traces of a line segment. Question 3 involves drawing projections of a cone. Question 4 involves sectioning a pentagonal prism and sketching related views and shapes. Question 5 involves either an isometric view of a combined cone frustum and hexagonal prism structure or a perspective view of a rectangular prism. The paper tests the candidate's ability to apply principles of engineering drawing
This document appears to be an exam question paper for an engineering graphics course. It contains 5 questions, each with two parts (a) and (b). The questions involve drawing various multi-view projections, sections, developments and perspectives of geometric shapes like lines, planes, prisms, pyramids, cones and cylinders. Students are required to choose one part from each question and draw the appropriate projections, sections or perspectives as specified in the given views and orientations of the objects.
This document provides examples of engineering graphics problems involving the projection of points, lines, and plane surfaces. There are over 30 examples given that involve constructing curves like ellipses, parabolas, and hypocycloids. They also include problems projecting points, lines, and plane objects like hexagonal plates in different orientations. The document is from the Department of Mechanical Engineering at VELTECH and was prepared by three assistant professors for a regulation on Engineering Graphics from 2013.
This document contains questions related to engineering graphics concepts including sections of solids, development of surfaces, isometric and perspective projections, and projection of lines and planes. There are a total of 74 questions across 5 units covering topics such as drawing projections, true shapes, developments, and isometric/perspective views of different geometric solids like prisms, pyramids, cones, cylinders when placed in various positions. The questions provide step-by-step instructions to draw the requested views, projections, or developments of the given solids.
The document is a chapter about isometric projections from a textbook on computer aided engineering graphics. It defines isometric projection as a method to represent 3D objects through drawing where the sides are at 120 degree angles to each other. It discusses isometric scales, lines in isometric projections, and provides examples of drawing isometric projections of combinations of solids like prisms, cylinders, cones, spheres, etc. along with step-by-step solutions and notes.
The document provides 9 engineering graphics questions to choose 5 from. The questions cover topics like constructing an epicycloid, drawing an ellipse with given parameters, determining projections and measurements of lines and shapes, drawing projections of various objects like a pyramid, prism, and cone, developing the surface of a truncated cone, and constructing a vernier scale. The student is asked to answer any 5 questions by drawing the requested projections, shapes, or scales and providing any necessary measurements or calculations. Neatness is also considered in grading the responses.
The document contains 12 exercises involving the projections of various geometric shapes and solids including lines, planes, prisms, pyramids, cones and composite solids. Many of the exercises involve determining lengths, angles of inclination, traces, true shapes, developments of cut surfaces, and shortest paths on developments. Projections are drawn to illustrate the orientation and measurements of each geometric object under different cutting plane conditions.
GE6152 Engineering Graphics JAN 2014 forenoon sessionRavi Sivaprakash
This document is an exam paper for a Civil Engineering graphics course. It contains 5 questions, with options (a) and (b) for each question. The questions cover topics like:
- Drawing a diagonal scale to show distances on a map
- Drawing orthographic projections of objects
- Drawing projections using different methods like change of position and change of reference line
- Drawing sections, developments and true shapes
- Drawing isometric and perspective views
The questions involve skills like constructing scales, drawing multi-view projections, using different projection methods, and visualizing sections and hidden details.
The document contains instructions for a 4 hour, 100 mark engineering drawing exam consisting of 6 questions. Question 1 involves drawing different views of objects based on given pictorial views. Question 2 involves drawing front and top views of lines and objects with given orientations. Questions 3-5 involve drawing front, top, and sectional views of geometric solids with given orientations, as well as developing surfaces of cut objects. Question 6 requires freehand sketches of various mechanical components.
This document discusses projection of solids in engineering drawing. It describes different types of solids like cubes, cylinders, prisms, and pyramids. It explains two methods of drawing projections - reproducing views and using auxiliary planes. It provides examples of how to draw projections of various solids like prisms, cones, pyramids in different orientations using these methods. It also describes how to determine apparent length and angle from true length and angle, and vice versa.
This document discusses development of surfaces and isometric projection. It begins by introducing development of surfaces, including methods of development and developing the surfaces of right solids like cubes, prisms, cylinders, pyramids and cones. It then introduces isometric projection, including isometric axes, lines, planes and scale. It provides examples of developing different objects and drawing isometric views.
The document discusses the intersection of solids and curves of intersection. It provides examples of different solids intersecting, like cylinders, cones, and prisms. It explains that curves of intersection show the maximum surface contact between intersecting solids. Steps are provided to draw the projections and curves of intersection for different examples, like a cylinder penetrated by another cylinder, or a square prism penetrated by a cylinder. Real-world examples are shown like machine components or industrial equipment.
Intersection OF SOLIDES
THIS SLIDE CONTAINS WHOLE SYLLABUS OF ENGINEERING DRAWING/GRAPHICS. IT IS THE MOST SIMPLE AND INTERACTIVE WAY TO LEARN ENGINEERING DRAWING.SYLLABUS IS RELATED TO rajiv gandhi proudyogiki vishwavidyalaya / rajiv gandhi TECHNICAL UNIVERSITY ,BHOPAL.
The document discusses the development of lateral surfaces of 3D objects. It defines a development as the unrolled flat shape of a 3D solid that can be folded back into the original shape. There are different methods of developing surfaces - parallel line development for prisms and cylinders, radial line development for pyramids and cones, triangulation development for transition pieces, and approximate development for curved surfaces like spheres. It also discusses sectioning of solids using cutting planes and the development of truncated and frustum shapes. Examples are provided for developing various prisms, pyramids, cylinders and cones.
This document contains information about the Engineering Graphics course for the Department of Mechanical Engineering at Narsimha Reddy Engineering College. It includes the course code, syllabus units covering topics like orthographic projections, sections, isometric projections, and AutoCAD basics. It also provides sample practice sheets on lettering, dimensions, conic sections, cycloids, epicycloids, hypocycloids, and involutes that include instructions, examples to practice, and assignments. The document specifies the textbook and reference books for the course.
This document contains engineering drawing questions related to curves and machine parts. It includes questions asking to draw curves traced by points rolling along other curves, such as an ellipse with given eccentricity and focus-directrix distance, the locus of a point on a rolling circle, and an ellipse with given focal distance and minor axis. It also includes questions asking to draw curves passing through given points and satisfying given conditions, such as the path of a ball thrown upward. Additionally, it asks to draw freehand sketches of various machine parts like different types of threads, joints, keys, bolts, and other fasteners.
Similar to Engineering Graphics Jntu Model Paper{Www.Studentyogi.Com} (20)
Mass Transfer Operations I Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
This document contains questions from a Mass Transfer Operations exam. It includes 8 questions related to various mass transfer topics like classification of mass transfer operations, diffusion, distillation design, and mass transfer correlations. The questions involve calculations related to diffusion rates, mass transfer coefficients, distillation column design parameters, and phase equilibrium data.
Linear Ic Applications Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
The document contains 8 questions related to linear integrated circuits applications. The questions cover topics like differential amplifiers, operational amplifiers, active filters, oscillators, DACs, ADCs, timers and other linear IC applications. Some questions ask to explain concepts, derive expressions, design circuits meeting given specifications and compare different circuit configurations or components. The questions could be answered by discussing the relevant concepts, deriving necessary equations, sketching required circuits and providing explanations with diagrams.
English Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
This document contains an exam paper for an English exam with 8 questions. It provides context that the exam is for various engineering disciplines. The questions cover a range of topics including:
- Describing one's role during a natural calamity
- Discussing lessons from historical wars for India
- Key events and people in India's space program history
- Poetry analysis and writing
- Adjective formation with suffixes
- Short answer questions about Kalam's life and work in India's space program
Engineering Chemistry Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
This document contains four sets of questions for an Engineering Chemistry exam. Each set contains 8 questions related to topics in engineering chemistry. The questions cover topics like water chemistry, corrosion, fuels, lubricants, polymers, coatings, and refractories. Students are instructed to answer any 5 of the 8 questions in each set, which vary in length from short answer to longer explanations and calculations.
Engineering Chemistry 1 Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
This document appears to contain an exam for the subject of Engineering Chemistry. It includes 8 questions related to various topics in engineering chemistry. Students are instructed to answer any 5 of the 8 questions. Each question is worth equal marks, and the exam has a maximum total of 80 marks. The questions cover topics such as water treatment, corrosion, fuels, polymers, lubrication, and refractories.
Emwavesandtransmission Lines Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
This document contains an exam for a course on electromagnetic waves and transmission lines. It includes 8 questions covering various topics:
1. Coulomb's law, electric field calculations for point charges.
2. Ampere's circuital law, magnetic field calculations for conducting rods and coils.
3. Plane wave propagation in dielectric media, displacement current density.
4. Brewster's angle and refraction/reflection at dielectric interfaces.
5. Poynting vector, power calculations for waves incident on dielectric boundaries.
6. Parallel plate waveguide properties such as cutoff frequency.
7. Transmission line characteristics impedance and reflection coefficients.
8. Equivalent circuits for transmission lines of various
Embedded Systems Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
This document contains eight questions related to embedded systems for an exam. It covers topics like NRE and unit costs for different IC technologies, designing a 2-bit comparator, advantages of single-purpose vs general-purpose processors, need for more functional units in digital signal processors, hierarchical/concurrent state machine models, synchronization among concurrent processes using condition variables, and designing a logic circuit to minimize gates.
Electronic Devices And Circuits Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
This document contains an examination paper for an electronics course. It has 8 questions covering various topics in electronic devices and circuits. The questions test knowledge of topics like diode characteristics, rectifiers, transistors, amplifiers, feedback systems and oscillators. Students have to answer any 5 out of the 8 questions in the paper.
Electromagneticwavesandtransmissionlines Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
This document appears to be a study guide or exam for a course on electromagnetic waves and transmission lines. It contains 8 potential exam questions covering various topics in electromagnetism including Gauss's law, Maxwell's equations, electromagnetic wave propagation, transmission lines, and impedance. The questions involve both conceptual explanations and mathematical derivations and calculations. Overall, the document provides a set of comprehensive practice problems addressing key concepts in the study of electromagnetics.
Electrical Technology Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
The document contains information about an electrical technology exam, including:
- The exam code and details such as date, duration, and maximum marks.
- It lists 8 questions related to topics in electrical technology, such as DC machines, transformers, induction motors, and electrical instruments.
- For each question, it provides sub-questions to be answered, and the number of marks allocated to each question.
- It provides 4 different sets of questions, with the same format, for the exam.
Electrical Measurements Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
This document contains 8 questions related to electrical measurements. Question 1 asks about potential divider arrangements for multi-range voltmeters and converting a meter movement into a multi-range voltmeter. Question 2 asks about differences between current and potential transformers, sources of errors in current transformers, and the equivalent circuit of a current transformer. Question 3 asks about types of errors and compensation methods in dynamometer-type wattmeters and differences between LPF and UPF wattmeters.
Electrical Machines Iii Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
This document appears to be an exam for an Electrical Machines course, as it contains 8 multi-part questions related to various electrical machines. The questions cover topics like alternator construction and operation, synchronous generator regulation methods, synchronization of alternators, synchronous motor operation, and single-phase induction motors. Students are instructed to answer any 5 of the 8 questions in the exam, which will last 3 hours and is worth a total of 80 marks.
Electrical Machines Ii Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
This document appears to contain exam questions and answers for a course on Electrical Machines II. It includes 8 questions related to topics like transformers, induction motors, and their operation. Some sample sub-questions ask students to derive transformer equations, calculate transformer parameters from test data, explain induction motor operation modes, and perform calculations related to induction motor speed control. The document provides detailed questions and answers across multiple pages for students to test their understanding of key electrical machines concepts.
Electrical Circuits Analysis Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
This document contains information about an electrical circuits analysis exam, including 8 questions on various circuit analysis topics. The questions cover concepts like equivalent circuits, network theorems, transient response, 3-phase circuits, and parameter conversions. Students have 3 hours to answer any 5 of the 8 questions, which all carry equal marks. Sample questions include analyzing networks, calculating inductance and power, deriving expressions, and using techniques like mesh analysis and Norton's theorem.
Digital Ic Applications Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
This document contains eight questions related to digital integrated circuits and applications. The questions cover topics such as CMOS and TTL gates, VHDL programming, counters, decoders, arithmetic circuits, memories and programmable logic devices. Students are instructed to answer any five of the eight questions, which can include circuit design problems, writing VHDL code, explaining concepts, and performing calculations. The exam is worth a total of 80 marks and is aimed at testing knowledge of digital logic design and implementation using integrated circuits.
Digital Control Systems Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
This document contains questions from a digital control systems exam. It covers topics like digital to analog conversion, z-transforms, stability analysis of sampled data systems, time domain analysis of discrete time systems using block diagrams, root locus sketches, controller design, state space models, and Lyapunov stability analysis. The exam has 8 questions, with some having multiple parts. Students are instructed to answer any 5 questions out of the 8 given.
Designofmachinemembers I Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
The document is a study guide containing 8 practice problems for a Design of Machine Members exam. The problems cover various topics in machine design including stresses induced in composite bars due to temperature changes, factors affecting endurance limits, advantages/disadvantages of welded vs riveted joints, bolt sizing, cotter and knuckle joint design, and hollow vs solid shaft design. Students are asked to calculate stresses, sizes of bolts, rivets, joints, and shafts based on given loading and material properties.
Digital Communications Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
This document contains exam questions for the subject Digital Communications. It has 8 questions divided into 3 sets. The questions cover various topics in digital communications including PCM, delta modulation, digital modulation techniques, bandwidth calculations, error probability analysis, channel capacity, linear block codes and conventional codes. Students are required to answer any 5 questions out of the 8 questions.
Databasemanagementsystems Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
This document appears to be an exam for a Database Management Systems course, as it contains 8 questions related to various DBMS topics. The exam instructs students to answer any 5 of the 8 questions. Each question is worth equal marks, with the total exam being out of 80 marks. The questions cover topics such as data modeling, relational algebra, indexing, concurrency control, recovery techniques, and more. Students are asked to explain concepts, provide examples, and solve problems related to database design, query processing, and transaction management.
Decision Support Systems Jntu Model Paper{Www.Studentyogi.Com}guest3f9c6b
The document contains questions from a Decision Support Systems exam for a B.Tech program. It covers various topics related to DSS including:
1) Human and Kepner-Tregoe decision making methods
2) Types of DSS software and client/server computing
3) Components of corporate models and electronic meeting styles
4) Expert systems, knowledge bases, and queuing disciplines
5) Data warehouses, extraction/loading stages, and multi-dimensional databases
The questions require explanations of concepts, comparison of approaches, and short answers testing understanding of key DSS topics.
This presentation was provided by Rebecca Benner, Ph.D., of the American Society of Anesthesiologists, for the second session of NISO's 2024 Training Series "DEIA in the Scholarly Landscape." Session Two: 'Expanding Pathways to Publishing Careers,' was held June 13, 2024.
A Visual Guide to 1 Samuel | A Tale of Two HeartsSteve Thomason
These slides walk through the story of 1 Samuel. Samuel is the last judge of Israel. The people reject God and want a king. Saul is anointed as the first king, but he is not a good king. David, the shepherd boy is anointed and Saul is envious of him. David shows honor while Saul continues to self destruct.
This presentation was provided by Racquel Jemison, Ph.D., Christina MacLaughlin, Ph.D., and Paulomi Majumder. Ph.D., all of the American Chemical Society, for the second session of NISO's 2024 Training Series "DEIA in the Scholarly Landscape." Session Two: 'Expanding Pathways to Publishing Careers,' was held June 13, 2024.
A Free 200-Page eBook ~ Brain and Mind Exercise.pptxOH TEIK BIN
(A Free eBook comprising 3 Sets of Presentation of a selection of Puzzles, Brain Teasers and Thinking Problems to exercise both the mind and the Right and Left Brain. To help keep the mind and brain fit and healthy. Good for both the young and old alike.
Answers are given for all the puzzles and problems.)
With Metta,
Bro. Oh Teik Bin 🙏🤓🤔🥰
How to Download & Install Module From the Odoo App Store in Odoo 17Celine George
Custom modules offer the flexibility to extend Odoo's capabilities, address unique requirements, and optimize workflows to align seamlessly with your organization's processes. By leveraging custom modules, businesses can unlock greater efficiency, productivity, and innovation, empowering them to stay competitive in today's dynamic market landscape. In this tutorial, we'll guide you step by step on how to easily download and install modules from the Odoo App Store.
🔥🔥🔥🔥🔥🔥🔥🔥🔥
إضغ بين إيديكم من أقوى الملازم التي صممتها
ملزمة تشريح الجهاز الهيكلي (نظري 3)
💀💀💀💀💀💀💀💀💀💀
تتميز هذهِ الملزمة بعِدة مُميزات :
1- مُترجمة ترجمة تُناسب جميع المستويات
2- تحتوي على 78 رسم توضيحي لكل كلمة موجودة بالملزمة (لكل كلمة !!!!)
#فهم_ماكو_درخ
3- دقة الكتابة والصور عالية جداً جداً جداً
4- هُنالك بعض المعلومات تم توضيحها بشكل تفصيلي جداً (تُعتبر لدى الطالب أو الطالبة بإنها معلومات مُبهمة ومع ذلك تم توضيح هذهِ المعلومات المُبهمة بشكل تفصيلي جداً
5- الملزمة تشرح نفسها ب نفسها بس تكلك تعال اقراني
6- تحتوي الملزمة في اول سلايد على خارطة تتضمن جميع تفرُعات معلومات الجهاز الهيكلي المذكورة في هذهِ الملزمة
واخيراً هذهِ الملزمة حلالٌ عليكم وإتمنى منكم إن تدعولي بالخير والصحة والعافية فقط
كل التوفيق زملائي وزميلاتي ، زميلكم محمد الذهبي 💊💊
🔥🔥🔥🔥🔥🔥🔥🔥🔥
Leveraging Generative AI to Drive Nonprofit InnovationTechSoup
In this webinar, participants learned how to utilize Generative AI to streamline operations and elevate member engagement. Amazon Web Service experts provided a customer specific use cases and dived into low/no-code tools that are quick and easy to deploy through Amazon Web Service (AWS.)
Temple of Asclepius in Thrace. Excavation resultsKrassimira Luka
The temple and the sanctuary around were dedicated to Asklepios Zmidrenus. This name has been known since 1875 when an inscription dedicated to him was discovered in Rome. The inscription is dated in 227 AD and was left by soldiers originating from the city of Philippopolis (modern Plovdiv).
Elevate Your Nonprofit's Online Presence_ A Guide to Effective SEO Strategies...TechSoup
Whether you're new to SEO or looking to refine your existing strategies, this webinar will provide you with actionable insights and practical tips to elevate your nonprofit's online presence.
Engineering Graphics Jntu Model Paper{Www.Studentyogi.Com}
1. www.studentyogi.com www.studentyogi.com
Code No: 07A10191
Set No. 1
I B.Tech Regular Examinations, May/Jun 2008
ENGINEERING GRAPHICS
( Common to Civil Engineering, Mechanical Engineering, Chemical
Engineering, Mechatronics, Metallurgy & Material Technology, Production
Engineering, Aeronautical Engineering and Automobile Engineering)
Time: 3 hours Max Marks: 80
Answer any FIVE Questions
All Questions carry equal marks
1. Draw a parabola passing through three vertices of a triangle of sides 30 mm, 45
mm and 60 mm. The corner of the triangle common to 45 mm and 60 mm sides
lies on the axis of parabola. Draw a tangent and normal at a point on the curve 20
mm from the axis. [16]
2. The front view of a line AB, 80 mm long , measures 55 mm while its top view
measures 70 mm. End A is in both HP and VP. Draw the pro jections of the line
and nd its inclinations with the reference planes. Also locate the traces. [16]
3. A hollow cylinder of 40 mm out side diameter and 30 mm inside diameter is resting
on a point on the rim in VP with axis inclined at 300 to VP and parallel to HP. The
axis length of the cylinder is 60 mm. It is cut by a vertical section plane inclined
at 600 to VP and bisecting the axis. Draw the sectional front view, top view and
true shape of the section. [16]
4. Two pipes of 40 mm diameter are joined in elbow shape. Their mean axis heights
are 100 mm each. Draw the development of surfaces of the pipes. [16]
5. A horizontal steam boiler of 3m diameter is surmounted by a dome of the shape of
a vertical cylinder of 1.4m diameter. Draw the projections showing the curves of
intersection, when their axes intersect each other at right angles. [16]
6. Draw the isometric view of the object whose orthographic pro jections are given in
gure 6. All dimensions are in mm. [16]
2. www.studentyogi.com www.studentyogi.com
Code No: 07A10191
Set No. 1
Figure 6
7. Draw the following views of the object given in gure 7. All dimensions are in mm.
(a) Front View
(b) Top View and
(c) Both Side Views. [16]
Figure 7
8. A mo del of steps has three steps of 10 mm tread and 10mm rise. The length of
the steps is 60 mm. The model is placed with the vertical edge of the rst step
touching the PP and its longer edge inclined at 300 to PP. The station point is 70
mm in front of PP, 55 mm above the ground plane and lies in a central plane which
is at 30 mm to the right of the vertical edge touching the PP. Draw the perspective
view. [16]
4. www.studentyogi.com www.studentyogi.com
Code No: 07A10191
Set No. 2
I B.Tech Regular Examinations, May/Jun 2008
ENGINEERING GRAPHICS
( Common to Civil Engineering, Mechanical Engineering, Chemical
Engineering, Mechatronics, Metallurgy & Material Technology, Production
Engineering, Aeronautical Engineering and Automobile Engineering)
Time: 3 hours Max Marks: 80
Answer any FIVE Questions
All Questions carry equal marks
1. Construct a cycloid having a rolling circle diameter as 50 mm for one revolution.
Draw a normal and tangent to the curve at a point 35 mm above the directing line.
[16]
2. A 100 mm line AB, measures 70 mm in top view and 80 mm in pro le view. The
end A 80 mm from pro le plane, 90 mm above HP and 30 mm infront of VP. Draw
the front view and top view of the line and nd its inclinations with HP and VP.
[16]
3. A regular hexagonal lamina with its edge 50 mm has its plane inclined at 450 to HP
and lying with one of its edges in HP. The plan of one of its diagonals is inclined at
450 to XY. The corner nearest to VP is 15 mm in front of it. Draw its projections.
[16]
4. Two pipes of 40 mm diameter are joined in elbow shape. Their mean axis heights
are 100 mm each. Draw the development of surfaces of the pipes. [16]
5. A cylinder of 75 mm diameter, standing on its base on H.P, is compeltely penetrated
by another cylinder of 55 mm diameter, with their axes intersecting at right angle.
Draw the projections, showing the lines of intersection, assuming that the axis of
the smaller cylinder is parallel to V.P. [16]
6. Draw the isometric view of the object whose orthographic pro jections are given in
gure 6. All dimensions are in mm. [16]
Figure 6
7. Draw the following views of the dove tail bracket given in gure 7. All dimensions
are in mm.
5. www.studentyogi.com www.studentyogi.com
Code No: 07A10191
Set No. 2
(b) Top View and
(c) Side View. [16]
Figure 7
8. A square plane of 35 mm sides stands vertically with one of its edges on the ground
and inclined at 450 to picture plane. The vertical edge nearest to picture plane is
20 mm behind it. The station point is 30 mm in front of picture plane, 40 mm
above the ground and lies in a central plane which passes through the centre of the
plane. Draw the perspective view of the plane. [16]
6. www.studentyogi.com www.studentyogi.com
Code No: 07A10191
Set No. 3
I B.Tech Regular Examinations, May/Jun 2008
ENGINEERING GRAPHICS
( Common to Civil Engineering, Mechanical Engineering, Chemical
Engineering, Mechatronics, Metallurgy & Material Technology, Production
Engineering, Aeronautical Engineering and Automobile Engineering)
Time: 3 hours Max Marks: 80
Answer any FIVE Questions
All Questions carry equal marks
1. An ant moves uniformly around the cylinderical post and reaches the top at the
end of 20 turns. Assume the axial movement also as uniform. The dia of the post
is 60 mm and height 8m. Trace the path of the ant for 2 turns. [16]
2. The distance between the end projectors of a line AB is 50 mm. Point A is 15
mm above HP and 10 mm infront of VP. Point B is 40 mm above HP and 40 mm
infront of VP. Find the true length of the line AB, the inclinations of the line AB
with HP and VP. Locate HT and VT of the line by trapezoidal method. [16]
3. Draw the pro jections of a circle of 50 mm diameter, when its plane is equally
inclined to HP and VP. One end of a diameter of the circle touches the HP while
the other end touches the VP. [16]
4. A cone of base diameter 50 mm and axis 75 mm long has its base in VP. It is
sectioned by a vertical section plane 10 mm to the right of the axis. Draw its
pro jections and develop the surface of the truncated cone. [16]
5. A cone of base 60 mm diameter and axis 70 mm long stands vertically with its base
on H.P. It is penetrated by a horizontal cylinder of 26 mm diameter. The axis of
the cylinder is parallel to V.P., 20 mm above the base and 5 mm in front of the
axis of the cone. Draw the projections of solids showing the curves of intersection.
[16]
6. Draw the isometric view of the object whose orthographic pro jections are given in
gure 6. All dimensions are in mm. [16]
7. www.studentyogi.com www.studentyogi.com
Code No: 07A10191
Set No. 3
Figure 6
7. Draw the following views of the ange given in gure 7. All dimensions are in mm.
(a) Front View
(b) Top View and
(c) Side View. [16]
Figure 7
8. A mo del of steps has three steps of 10 mm tread and 10mm rise. The length of
the steps is 60 mm. The model is placed with the vertical edge of the rst step
8. www.studentyogi.com www.studentyogi.com
Code No: 07A10191
Set No. 3
mm in front of PP, 55 mm above the ground plane and lies in a central plane which
is at 30 mm to the right of the vertical edge touching the PP. Draw the perspective
view. [16]
9. www.studentyogi.com www.studentyogi.com
Code No: 07A10191
Set No. 4
I B.Tech Regular Examinations, May/Jun 2008
ENGINEERING GRAPHICS
( Common to Civil Engineering, Mechanical Engineering, Chemical
Engineering, Mechatronics, Metallurgy & Material Technology, Production
Engineering, Aeronautical Engineering and Automobile Engineering)
Time: 3 hours Max Marks: 80
Answer any FIVE Questions
All Questions carry equal marks
1. Draw two complete coils of a conical spring made up to 20 mm round sto ck. The
outside diameters are large 110 mm, small 60 mm, pitch 50 mm. [16]
2. Front view of a line PQ is inclined at 300 to xy-line and measures 60 mm. The line
is inclined at 450 to VP. The end P is in HP and VT of the line is 20 mm below
HP. Draw the projections of the line and nd its true length and inclinations with
the reference planes. Also locate HT. [16]
3. A regular pentagon of side 40 mm has its surface inclined to HP at 450. It is resting
with its base on HP and the line joining the vertex to mid-point of the base making
an angle of 600 with VP. Draw its pro jections. [16]
4. Draw the development of the lateral surface of the part P of the hexagonal pyramid,
two sides of the base parallel to the V.P. As shown in gure 4. All dimensions are
in cm.
[16]
Figure 4
5. A horizontal cylindrical pipe 40mm diameter is joined with a vertical cylindrical
pipe of same diameter. The axes of the pipes are parallel to VP. Neglecting the
pipe thickness draw the projections showing the curves of intersection, when their
axes intersect each other at right angles. [16]
6. Draw the isometric view of the object whose orthographic pro jections are given in
gure 6. All dimensions are in mm. [16]
10. www.studentyogi.com www.studentyogi.com
Code No: 07A10191
Set No. 4
Figure 6
7. Draw the following views of the object given in gure 7. All dimensions are in mm.
(a) Front View
(b) Top View and
(c) Side View. [16]
11. www.studentyogi.com www.studentyogi.com
Code No: 07A10191
Set No. 4
8. A hexagonal plane of 30 mm side lies on the ground plane. One of its corners
is touching the picture plane and an edge is perpendicular to picture plane. The
station point is 30 mm in front of the picture plane, 60 mm above the ground plane
and lies in a central plane which passes through the centre of lamina. Draw the
perspective view. [16]