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PLANAR CURVES A circle of radius 3 can be expressed in a number of ways C Using parametric equations:

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Presentation on theme: "PLANAR CURVES A circle of radius 3 can be expressed in a number of ways C Using parametric equations:"— Presentation transcript:

1 PLANAR CURVES A circle of radius 3 can be expressed in a number of ways C Using parametric equations:

2 Using an implicit function:

3 Using an explicit function:

4 Using polar co-ordinates:

5 SMOOTH REGULAR CURVE Let a curve C be given by the parametric equations We say that C is a smooth regular curve if exist and are continuous on [a,b] on [a,b], for each point [x,y] of C, there is a unique such that Any point of C for which any of the above conditions is not satisfied is called singular with a possible exception of the points corresponding to the values a and b.

6 TANGENT VECTOR y C x and as A tends to B

7 Let C be a smooth curve expressed parametrically
with We have and, as B tends to A, we get, using the mean value theorem:

8 DIRECTING AN OPEN CURVE
Z A If a curve is open, directing it means saying which endpoint comes as first and which as second. There are clearly two ways or directing a curve.

9 DIRECTING A CLOSED CURVE
anti-clockwise clockwise

10 DIRECTION AND PARAMETRIC EXPRESSION
B directed oppositely to parametric expression Z Y X directed in correspondence with parametric expression t B A

11 RECTIFIABLE CURVES A=T0 T1 T2 ... Tn-2 Tn-1 Tn=B t Mn=N M=M0 M1 M2 Mn-1 . . . Mn-2

12 is the length of the polygon inscribed into curve MN
with respect to partition T0, T1, T2, ... Tn-2, Tn-1, Tn of AB. Let us now consider the set L of such lengths taken over the set of all the partitions of AB. If L is bounded from above, then we say that the curve MN is rectifiable. If AB is rectifiable, the least upper bound of L exists and we define this least upper bound L as the length of AB. L(AB)=LUB(L)

13 LENGTH OF A REGULAR CURVE
Let C be a regular curve with a parametric expression Then it is rectifiable and the length of C can be calculated by the following formula:

14 3-D CURVES The notions of a tangent vector, the rectifiability, the length of a curve and the direction of anopen3-D curve are easily extended to a 3-D curve. To direct a 3-D closed curve we use the notion of a left-hand and right-hand thread.

15 DIRECTING A 3-D CLOSED CURVE
z-axix left-hand thread right-hand thread xy-plane

16 ASTROID or

17 CYCLOID Cycloid is the curve generated by a point on the circumference of a circle that rolls along a straight line. If r is the radius of the circle and  is the angular displacement of the circle, then the polar equations of the curve are Here r =3 and  runs from 0 to 4, that is, the circle revolves twice

18 CARDOID implicit function parametric equations polar co-ordinates a=2

19 CLOTHOIDE Clothoid is a curve whose radius of curvature at a point M is indirectly proportional to the length s between M and a fixed point O.

20 FOLIUM OF DESCARTES

21 HELIX Helix is the curve cutting the generators of a right circular cylinder under a constant angle .

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