If A, B, C, be the centres of three co-axial circles and `t_(1),t_(2),t_(3)` be the lengths of the tangents of them any piont, prove that
`bar(BC).t_(1)^(2)+bar(CA).t_(2)^(2)+bar(AB).t_(3)^(2)=0`

The base of a triangle is divided into three equal parts. If t_1, t_2,t_3 are the tangents of the angles subtended by these parts at the opposite vertex, prove that (1/(t_1)+1/(t_2))(1/(t_2)+1/(t_3))=4(1+1/(t_2)^ 2))dot

Let C be incircle of DeltaABC . If the tangents of lengths t_(1),t_(2) and t_(3) are drawn inside the given triangle parallel to side a,b, and c, respectively, then (t_(1))/(a) + (t_(2))/(b) + (t_(3))/(c) is equal to

A, B, C are respectively the points (1,2), (4, 2), (4, 5). If T_(1), T_(2) are the points of trisection of the line segment BC, the area of the Triangle A T_(1) T_(2) is

Find the equation of the tangent at t = pi/4 to the curve: x = sin 3t, y = cos 2t.

The slope of the tangent to the curve x = t^2+3t-8, y = 2t^2-2t-5 at the point (2,-1) is:

Write the equation of a tangent to the curve x=t, y=t^2 and z=t^3 at its point M(1, 1, 1): (t=1) .

The area formed by the normals to y^2=4ax at the points t_1,t_2,t_3 is