Quick Facts

Medium Of Instructions	Mode Of Learning	Mode Of Delivery
English	Self Study

Courses and Certificate Fees

Fees Informations	Certificate Availability	Certificate Providing Authority
INR 1000	yes	IIT Roorkee

Lecture 1: Introduction to engineering graphics, Principles of Engineering Graphics and their significance,
Lecture 2: usage of Drawing instruments, stationary materials required – scales, protractor, French curves, papers, pencils, erasers, drawing pins, drafting machine, T-Pulley
Lecture 3: Sheet layout, fixing the sheet on board, cleaning the instruments
Lecture 4: Types of lines, Graphic symbols
Lecture 5: Lettering,

Lecture 1: Dimensioning
Lecture 2: Scales – Plain, Diagonal and Vernier Scales;
Lecture 3: Basic Geometrical construction – perpendicular lines, parallel lines, bisecting an angle etc.
Lecture 4: Curves used in engineering practice
Lecture 5: Conic sections including the Rectangular Hyperbola (General method only); Cycloid, Epicycloid, Hypocycloid and Involute;

Lecture 1: Introduction to orthographic projection, principles of projection, Methods of Projection, Planes of projection, four quadrants
Lecture 2: First angle projection, third angle projection, reference line
Lecture 3: Projection of points in different quadrants
Lecture 4: Loci of points
Lecture 5: Projection of lines - introduction

Lecture 1: Projection of lines parallel to both the reference planes
Lecture 2: Projection of line parallel to one and perpendicular to another plane
Lecture 3: Projection of lines inclined to one plane
Lecture 4: Projection of lines inclined to both the planes
Lecture 5: Projection of a point and line on auxiliary plane

Lecture 1: Projection of planes perpendicular to both the reference planes
Lecture 2: Projection of planes parallel to both the reference planes
Lecture 3: Projection of planes parallel to one and perpendicular to another plane
Lecture 4: Projection of planes inclined to one plane
Lecture 5: Projection of planes inclined to both the planes

Lecture 1: Types of solids
Lecture 2: Projection of solids in simple positions
Lecture 3: Projection of solids with axis inclined to one of the reference planes and parallel to
Lecture 4: Projection of solids with axis inclined to both the planes
Lecture 5: Projection of spheres

Lecture 1: Introduction to section of solids, section planes, true shape of sections
Lecture 2: Sections of Prisms
Lecture 3: Sections of Pyramids
Lecture 4: Sections of Cylinders
Lecture 5: Sections of Cones

Lecture 1: Sections of Spheres
Lecture 2: Development of surfaces- cubes, prisms, pyramids
Lecture 3: Development of surfaces- cylinders, spheres
Lecture 4: Intersection of surfaces – two Prisms, two cones, two cylinders
Lecture 5: Intersection of surfaces – one prism and one cone, one cone and one cylinder, one sphere and one prism