Advertisements
Advertisements
Question
Find the equation of the tangent and the normal to the following curve at the indicated points x = a(θ + sinθ), y = a(1 − cosθ) at θ ?
Solution
\[x = a\left( \theta + \sin\theta \right) \text { and }y = a\left( 1 - \cos\theta \right)\]
\[\frac{dx}{d\theta} = a\left( 1 + \cos\theta \right) \text { and } \frac{dy}{d\theta} = a\sin\theta\]
\[ \therefore \frac{dy}{dx} = \frac{\frac{dy}{d\theta}}{\frac{dx}{d\theta}} = \frac{a\sin\theta}{a\left( 1 + \cos\theta \right)} = \frac{\sin\theta}{\left( 1 + \cos\theta \right)} = \frac{2\sin\frac{\theta}{2}\cos\frac{\theta}{2}}{2 \cos^2 \frac{\theta}{2}} = \tan\frac{\theta}{2} . . . \left( 1 \right)\]
\[\text { Slope of tangent },m= \left( \frac{dy}{dx} \right)_\theta =\tan\frac{\theta}{2}\]
\[\text { Now }, \left( x_1 , y_1 \right) = \left[ a\left( \theta + \sin\theta \right), a\left( 1 - \cos\theta \right) \right] \]
\[\text { Equation of tangent is },\]
\[y - y_1 = m \left( x - x_1 \right)\]
\[ \Rightarrow y - a\left( 1 - \cos\theta \right) = \tan\frac{\theta}{2}\left[ x - a\left( \theta + \sin\theta \right) \right]\]
\[ \Rightarrow y - a\left( 2 \sin^2 \frac{\theta}{2} \right) = x\tan\frac{\theta}{2} - a\theta\tan\frac{\theta}{2} - a\tan\frac{\theta}{2}\sin\theta\]
\[ \Rightarrow y - a\left( 2 \sin^2 \frac{\theta}{2} \right) = x\tan\frac{\theta}{2} - a\theta\tan\frac{\theta}{2} - a\frac{2\sin\frac{\theta}{2}\cos\frac{\theta}{2}}{2 \cos^2 \frac{\theta}{2}}2\sin\frac{\theta}{2}\cos\frac{\theta}{2}........... [From (1)]\]
\[ \Rightarrow y - 2a \sin^2 \frac{\theta}{2} = \left( x - a\theta \right)\tan\frac{\theta}{2} - 2a \sin^2 \frac{\theta}{2}\]
\[ \Rightarrow y = \left( x - a\theta \right)\tan\frac{\theta}{2}\]
\[\text { Equation of normal is },\]
\[y - a\left( 1 - \cos\theta \right) = - \cot\frac{\theta}{2}\left[ x - a\left( \theta + \sin\theta \right) \right]\]
\[ \Rightarrow \tan \frac{\theta}{2}\left[ y - a\left( 2 \sin^2 \frac{\theta}{2} \right) \right] = - x + a\theta + a\sin\theta\]
\[ \Rightarrow \tan \frac{\theta}{2}\left[ y - a\left\{ 2 \left( 1 - \cos^2 \frac{\theta}{2} \right) \right\} \right] = - x + a\theta + a\sin\theta\]
\[ \Rightarrow \tan \frac{\theta}{2}\left( y - 2a \right) + a \left( 2 \sin \frac{\theta}{2} \cos \frac{\theta}{2} \right) = - x + a\theta + asin\theta\]
\[ \Rightarrow \tan \frac{\theta}{2}\left( y - 2a \right) + a\sin\theta = - x + a\theta + asin\theta\]
\[ \Rightarrow \tan \frac{\theta}{2}\left( y - 2a \right) = - x + a\theta\]
\[ \Rightarrow \tan \frac{\theta}{2}\left( y - 2a \right) + x - a\theta = 0\]
APPEARS IN
RELATED QUESTIONS
Find the equations of the tangent and normal to the curve x = a sin3θ and y = a cos3θ at θ=π/4.
Prove that the least perimeter of an isosceles triangle in which a circle of radius r can be inscribed is `6sqrt3` r.
Find the equation of tangents to the curve y= x3 + 2x – 4, which are perpendicular to line x + 14y + 3 = 0.
Find the slope of the tangent to the curve y = x3 − 3x + 2 at the point whose x-coordinate is 3.
Find points at which the tangent to the curve y = x3 − 3x2 − 9x + 7 is parallel to the x-axis.
Find the equations of all lines having slope 0 which are tangent to the curve y = `1/(x^2-2x + 3)`
Find the points on the curve y = x3 at which the slope of the tangent is equal to the y-coordinate of the point.
The line y = x + 1 is a tangent to the curve y2 = 4x at the point
(A) (1, 2)
(B) (2, 1)
(C) (1, −2)
(D) (−1, 2)
Find the points on the curve y = `4x^3 - 3x + 5` at which the equation of the tangent is parallel to the x-axis.
Find the slope of the tangent and the normal to the following curve at the indicted point xy = 6 at (1, 6) ?
Find a point on the curve y = x3 − 3x where the tangent is parallel to the chord joining (1, −2) and (2, 2) ?
Find the points on the curve y = x3 − 2x2 − 2x at which the tangent lines are parallel to the line y = 2x− 3 ?
At what points on the curve y = x2 − 4x + 5 is the tangent perpendicular to the line 2y + x = 7?
Find the equation of the tangent and the normal to the following curve at the indicated point \[y^2 = \frac{x^3}{4 - x}at \left( 2, - 2 \right)\] ?
Find the equation of the tangent and the normal to the following curve at the indicated point 4x2 + 9y2 = 36 at (3cosθ, 2sinθ) ?
Find the equation of the tangent and the normal to the following curve at the indicated points x = at2, y = 2at at t = 1 ?
Find the equation of the normal to the curve ay2 = x3 at the point (am2, am3) ?
Find the equation of the tangent line to the curve y = x2 + 4x − 16 which is parallel to the line 3x − y + 1 = 0 ?
Find the equation of the tangent line to the curve y = x2 − 2x + 7 which perpendicular to the line 5y − 15x = 13. ?
Find the equations of all lines having slope 2 and that are tangent to the curve \[y = \frac{1}{x - 3}, x \neq 3\] ?
Find the angle of intersection of the following curve y = x2 and x2 + y2 = 20 ?
Show that the following set of curve intersect orthogonally x2 + 4y2 = 8 and x2 − 2y2 = 4 ?
Show that the following curve intersect orthogonally at the indicated point y2 = 8x and 2x2 + y2 = 10 at \[\left( 1, 2\sqrt{2} \right)\] ?
Write the coordinates of the point at which the tangent to the curve y = 2x2 − x + 1 is parallel to the line y = 3x + 9 ?
The line y = mx + 1 is a tangent to the curve y2 = 4x, if the value of m is ________________ .
Find the angle of intersection of the curves \[y^2 = 4ax \text { and } x^2 = 4by\] .
The two curves x3 – 3xy2 + 2 = 0 and 3x2y – y3 = 2 ______.
The tangent to the curve given by x = et . cost, y = et . sint at t = `pi/4` makes with x-axis an angle ______.
The two curves x3 – 3xy2 + 2 = 0 and 3x2y – y3 – 2 = 0 intersect at an angle of ______.
The two curves x3 - 3xy2 + 5 = 0 and 3x2y - y3 - 7 = 0
The distance between the point (1, 1) and the tangent to the curve y = e2x + x2 drawn at the point x = 0
The tangent to the curve y = 2x2 - x + 1 is parallel to the line y = 3x + 9 at the point ____________.
Tangent and normal are drawn at P(16, 16) on the parabola y2 = 16x, which intersect the axis of the parabola at A and B, respectively. If C is the centre of the circle through the points P, A and B and ∠CPB = θ, then a value of tan θ is:
The points at which the tangent passes through the origin for the curve y = 4x3 – 2x5 are
Which of the following represent the slope of normal?
Find the points on the curve `y = x^3` at which the slope of the tangent is equal to the y-coordinate of the point
The number of values of c such that the straight line 3x + 4y = c touches the curve `x^4/2` = x + y is ______.
The normals to the curve x = a(θ + sinθ), y = a(1 – cosθ) at the points θ = (2n + 1)π, n∈I are all ______.
If β is one of the angles between the normals to the ellipse, x2 + 3y2 = 9 at the points `(3cosθ, sqrt(3) sinθ)` and `(-3sinθ, sqrt(3) cos θ); θ ∈(0, π/2)`; then `(2 cot β)/(sin 2θ)` is equal to ______.
