A circle with center at the origin and r...

A circle with center at the origin and radius equal to a meets the axis of `x` at `Aa n dBdotP(alpha)` and `Q(beta)` are two points on the circle so that `alpha-beta=2y` , where `gamma` is a constant. Find the locus of the point of intersection of `A P` and `B Qdot`

Similar Questions

Explore conceptually related problems

A circle with center at the origin and radius equal to a meets the axis of x at Aa n dBdotP(alpha) and Q(beta) are two points on the circle so that alpha-beta=2gamma , where gamma is a constant. Find the locus of the point of intersection of A P and B Qdot

A circle with center at the origin and radius equal to a meets the axis of x at Aa n dB. P(alpha) and Q(beta) are two points on the circle so that alpha-beta=2gamma , where gamma is a constant. Find the locus of the point of intersection of A P and B Qdot

A circle with center at the origin and radius equal to a meets the axis of x at A and B.P(alpha) and Q(beta) are two points on the circle so that alpha-beta=2y, where gamma is a constant.Find the locus of the point of intersection of AP and BQ.

A circle x^(2)+y^(2)=a^(2) meets the x-axis at A(-a,0) and B(a,0). P(alpha) and Q( beta ) are two points on the circle so that alpha-beta=2 gamma, where gamma is a constant. Find the locus of the point of intersection of AP and BQ.

alpha and beta are the angles made by two tangents to the parabola y^(2) = 4ax , with its axis. Find the locus of their point of intersection, if cot alpha + cot beta=p

Point of intersection of tangents at P(alpha) and Q(Beta)

If the eccentric angles of two points P and Q on the ellipse x^2/a^2+y^2/b^2 are alpha,beta such that alpha +beta=pi/2 , then the locus of the point of intersection of the normals at P and Q is

If the tangents to ellipse x^2/a^2 + y^2/b^2 = 1 makes angle alpha and beta with major axis such that tan alpha + tan beta = lambda then locus of their point of intersection is

A circle with center at the origin and radius equal to a meets the axis of `x` at `Aa n dBdotP(alpha)` and `Q(beta)` are two points on the circle so that `alpha-beta=2y` , where `gamma` is a constant. Find the locus of the point of intersection of `A P` and `B Qdot`

Similar Questions

Recommended Questions