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Curvature and Torsion of Curves
Institute of Lifelong Learning, University of Delhi
Lesson: Curvature and Torsion of Curves
Course Developer: Vivek N Sharma
Department/College: Assistant Professor, Department of
Mathematics, S.G.T.B. Khalsa College, University of Delhi
Page 2
Curvature and Torsion of Curves
Institute of Lifelong Learning, University of Delhi
Lesson: Curvature and Torsion of Curves
Course Developer: Vivek N Sharma
Department/College: Assistant Professor, Department of
Mathematics, S.G.T.B. Khalsa College, University of Delhi
Curvature and Torsion of Curves
Institute of Lifelong Learning, University of Delhi
Table of Contents
1. Learning Outcomes
2. Introduction
3. Curvature of a Plane Curve
4. The Principal Unit Normal for a Plane Curve
5. Circle of Curvature of a Plane Curve
6. Curves in Space: Curvature & Normal Vectors
7. Unit Binormal Vector for a Space Curve
8. Torsion of a Space Curve
9. Functions of Several Variables: Introduction
10. Graphs & Level Curves
11. Summary and Important Formulae
12. Exercises
13. Glossary and Further Reading
14. Solutions for Exercises
Page 3
Curvature and Torsion of Curves
Institute of Lifelong Learning, University of Delhi
Lesson: Curvature and Torsion of Curves
Course Developer: Vivek N Sharma
Department/College: Assistant Professor, Department of
Mathematics, S.G.T.B. Khalsa College, University of Delhi
Curvature and Torsion of Curves
Institute of Lifelong Learning, University of Delhi
Table of Contents
1. Learning Outcomes
2. Introduction
3. Curvature of a Plane Curve
4. The Principal Unit Normal for a Plane Curve
5. Circle of Curvature of a Plane Curve
6. Curves in Space: Curvature & Normal Vectors
7. Unit Binormal Vector for a Space Curve
8. Torsion of a Space Curve
9. Functions of Several Variables: Introduction
10. Graphs & Level Curves
11. Summary and Important Formulae
12. Exercises
13. Glossary and Further Reading
14. Solutions for Exercises
Curvature and Torsion of Curves
Institute of Lifelong Learning, University of Delhi
1. Learning Outcomes
After studying this unit, you will be able to
• state the concept of curvature of a plane curve.
• calculate the curvature of various curves in plane and space.
• explain the concept of torsion and binormal vectors for space
curves.
• calculate torsion & binormal vectors of various space curves.
• describe the meaning of a function of more than one variable.
• analyse visually a function of two or three variables.
• explain the concept of a level curve of a function of two or more
variables.
2. Introduction:
Geometric understanding of mathematics holds high importance in scientific
analysis. It enables us to dig deeply about the question at hand. In this unit,
we shall be studying the geometric properties of various plane and space
curves.
A very important aspect of drawing any curve is the amount of bending or
twisting of the curve around any point. This is a very basic question
regarding any curve we aim to draw on a plane or in space. And
mathematicians have answered this question quite comfortably using
calculus. They have formulated the notion of curvature of a plane curve and
torsion of a space curve. These are the properties that we shall be learning
in this unit.
Curvature of a plane curve tells us how much does the curve bend or turn
around a point. Torsion of a space curve reveals the tendency of the curve to
move “away” from the plane. Since a plane curve always remains in the
plane (that is it never escapes the plane to enter the space, its torsion is
Page 4
Curvature and Torsion of Curves
Institute of Lifelong Learning, University of Delhi
Lesson: Curvature and Torsion of Curves
Course Developer: Vivek N Sharma
Department/College: Assistant Professor, Department of
Mathematics, S.G.T.B. Khalsa College, University of Delhi
Curvature and Torsion of Curves
Institute of Lifelong Learning, University of Delhi
Table of Contents
1. Learning Outcomes
2. Introduction
3. Curvature of a Plane Curve
4. The Principal Unit Normal for a Plane Curve
5. Circle of Curvature of a Plane Curve
6. Curves in Space: Curvature & Normal Vectors
7. Unit Binormal Vector for a Space Curve
8. Torsion of a Space Curve
9. Functions of Several Variables: Introduction
10. Graphs & Level Curves
11. Summary and Important Formulae
12. Exercises
13. Glossary and Further Reading
14. Solutions for Exercises
Curvature and Torsion of Curves
Institute of Lifelong Learning, University of Delhi
1. Learning Outcomes
After studying this unit, you will be able to
• state the concept of curvature of a plane curve.
• calculate the curvature of various curves in plane and space.
• explain the concept of torsion and binormal vectors for space
curves.
• calculate torsion & binormal vectors of various space curves.
• describe the meaning of a function of more than one variable.
• analyse visually a function of two or three variables.
• explain the concept of a level curve of a function of two or more
variables.
2. Introduction:
Geometric understanding of mathematics holds high importance in scientific
analysis. It enables us to dig deeply about the question at hand. In this unit,
we shall be studying the geometric properties of various plane and space
curves.
A very important aspect of drawing any curve is the amount of bending or
twisting of the curve around any point. This is a very basic question
regarding any curve we aim to draw on a plane or in space. And
mathematicians have answered this question quite comfortably using
calculus. They have formulated the notion of curvature of a plane curve and
torsion of a space curve. These are the properties that we shall be learning
in this unit.
Curvature of a plane curve tells us how much does the curve bend or turn
around a point. Torsion of a space curve reveals the tendency of the curve to
move “away” from the plane. Since a plane curve always remains in the
plane (that is it never escapes the plane to enter the space, its torsion is
Curvature and Torsion of Curves
Institute of Lifelong Learning, University of Delhi
zero. Both these properties help us visualize a curve clearly and explain its
various properties.
Curvature and torsion, both, are the local properties of a curve. A local
property of a curve is the one which explains the geometry of the curve only
“around a point”. For instance, a curve may bend “too much” around a point
but just “too little” around another point. Therefore, the curvature of the
curve can be zero around one point, but may be very large around another
point. This explains why the curvature of a curve is a local property of the
curve. These geometric considerations forced mathematicians to use calculus
to understand the notion of curvature. Its further development led to the
fascinating branch of mathematics called “Differential Geometry”.
We shall first study curvature of plane curves and shall then extend this
concept to space curves.
3. Curvature of a Plane Curve:
Intuitively, curvature explains how much does a curve bend (or turn) around
a point. But whenever a curve turns, the tangent vector at that point
changes its direction. And if a curve does not turn around a point, the
tangent vector at that point will not change its direction around that point.
In other words, as a particle moves along a smooth curve in a plane, the
vector
???? =
???? ???? ???????? = Unit Tangent Vector of the curve
turns as the curve bends. This is revealed in the figure overleaf.
Page 5
Curvature and Torsion of Curves
Institute of Lifelong Learning, University of Delhi
Lesson: Curvature and Torsion of Curves
Course Developer: Vivek N Sharma
Department/College: Assistant Professor, Department of
Mathematics, S.G.T.B. Khalsa College, University of Delhi
Curvature and Torsion of Curves
Institute of Lifelong Learning, University of Delhi
Table of Contents
1. Learning Outcomes
2. Introduction
3. Curvature of a Plane Curve
4. The Principal Unit Normal for a Plane Curve
5. Circle of Curvature of a Plane Curve
6. Curves in Space: Curvature & Normal Vectors
7. Unit Binormal Vector for a Space Curve
8. Torsion of a Space Curve
9. Functions of Several Variables: Introduction
10. Graphs & Level Curves
11. Summary and Important Formulae
12. Exercises
13. Glossary and Further Reading
14. Solutions for Exercises
Curvature and Torsion of Curves
Institute of Lifelong Learning, University of Delhi
1. Learning Outcomes
After studying this unit, you will be able to
• state the concept of curvature of a plane curve.
• calculate the curvature of various curves in plane and space.
• explain the concept of torsion and binormal vectors for space
curves.
• calculate torsion & binormal vectors of various space curves.
• describe the meaning of a function of more than one variable.
• analyse visually a function of two or three variables.
• explain the concept of a level curve of a function of two or more
variables.
2. Introduction:
Geometric understanding of mathematics holds high importance in scientific
analysis. It enables us to dig deeply about the question at hand. In this unit,
we shall be studying the geometric properties of various plane and space
curves.
A very important aspect of drawing any curve is the amount of bending or
twisting of the curve around any point. This is a very basic question
regarding any curve we aim to draw on a plane or in space. And
mathematicians have answered this question quite comfortably using
calculus. They have formulated the notion of curvature of a plane curve and
torsion of a space curve. These are the properties that we shall be learning
in this unit.
Curvature of a plane curve tells us how much does the curve bend or turn
around a point. Torsion of a space curve reveals the tendency of the curve to
move “away” from the plane. Since a plane curve always remains in the
plane (that is it never escapes the plane to enter the space, its torsion is
Curvature and Torsion of Curves
Institute of Lifelong Learning, University of Delhi
zero. Both these properties help us visualize a curve clearly and explain its
various properties.
Curvature and torsion, both, are the local properties of a curve. A local
property of a curve is the one which explains the geometry of the curve only
“around a point”. For instance, a curve may bend “too much” around a point
but just “too little” around another point. Therefore, the curvature of the
curve can be zero around one point, but may be very large around another
point. This explains why the curvature of a curve is a local property of the
curve. These geometric considerations forced mathematicians to use calculus
to understand the notion of curvature. Its further development led to the
fascinating branch of mathematics called “Differential Geometry”.
We shall first study curvature of plane curves and shall then extend this
concept to space curves.
3. Curvature of a Plane Curve:
Intuitively, curvature explains how much does a curve bend (or turn) around
a point. But whenever a curve turns, the tangent vector at that point
changes its direction. And if a curve does not turn around a point, the
tangent vector at that point will not change its direction around that point.
In other words, as a particle moves along a smooth curve in a plane, the
vector
???? =
???? ???? ???????? = Unit Tangent Vector of the curve
turns as the curve bends. This is revealed in the figure overleaf.
Curvature and Torsion of Curves
Institute of Lifelong Learning, University of Delhi
Figure 1: The unit tangent vector ???? =
???? ???? ???????? at the point ???? turns along the curve
as the point ???? proceeds along the curve.
Since ???? is a unit vector, its length remains constant and only its direction
changes as the particle moves along the curve. Now we are in a position to
define the curvature of the smooth curve.
3.1 Definition of Curvature: The rate at which ???? turns per unit of length
along the curve is called the curvature of the curve. Thus, if ???? is the unit
tangent vector of a smooth curve ???? ( ???? ), the curvature function ???? ( ???? ) of the
curve is
???? ( ???? ) =|
???? ???? ???????? ( ???? )|.
Value Addition : Remarks
• |
???? ???? ???????? | = 0
• If |
???? ???? ???????? | = 0, the curve does not turn at all as the particle passes through
the point ???? & the curvature of the curve at ???? is zero.
• If |
???? ???? ???????? | is large, ???? turns sharply as the particle passes through the point ???? .
• If |
???? ???? ???????? | is close to zero, ???? turns more slowly as the particle passes through
the point ???? and the curvature of the curve at ???? is smaller.
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FAQs on Lecture 2- Curvature and Torsion of Curves - Calculus - Engineering Mathematics
| 1. What is curvature of a curve? |  |
Ans. Curvature of a curve measures how much the curve deviates from being a straight line at a given point. It is defined as the rate at which the tangent to the curve changes as we move along the curve. Curvature is a scalar quantity and is given by the formula K = |dT/ds|, where T is the unit tangent vector and ds is the arc length of the curve.
| 2. How is curvature related to the radius of curvature? | |
Ans. The radius of curvature is the reciprocal of the curvature. It represents the radius of the circle that best approximates the curve at a given point. The formula to calculate the radius of curvature is R = 1/K, where R is the radius of curvature and K is the curvature. A smaller radius of curvature indicates a sharper curve, while a larger radius of curvature represents a more gentle curve.
| 3. What is torsion of a curve? | |
Ans. Torsion of a curve measures how much the curve deviates from being planar at a given point. It is a measure of the twist or rotation of the curve. Torsion is a vector quantity and is given by the formula τ = (N⋅B)/|T|, where N is the principal normal vector, B is the binormal vector, and T is the unit tangent vector.
| 4. How is torsion related to the curvature of a curve? | |
Ans. Torsion is related to the curvature of a curve through the Frenet-Serret formulas. The Frenet-Serret formulas define the relationship between the unit tangent vector, the principal normal vector, and the binormal vector of a curve. The torsion is calculated using the dot product of the principal normal vector and the binormal vector, divided by the magnitude of the unit tangent vector.
| 5. How are curvature and torsion used in engineering applications? | |
Ans. Curvature and torsion are important concepts in engineering applications such as robotics, computer graphics, and structural analysis. In robotics, curvature and torsion are used to design paths for robots that can navigate through complex environments. In computer graphics, they are used to create realistic 3D models of curved objects. In structural analysis, curvature and torsion are used to calculate the bending and twisting forces experienced by beams and other structural elements.
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