Show that the locus of a point such that the ratio of its distances from two given points is a constant, is a circle. Hence show that this circle cannot pass through the given points.

Show that the locus of a point such that the ratio of its distances from two given points is constant, is a circle. Hence show that the circle cannot pass through the given points.

The locus of a point which moves so that the difference of the squares of its distance from two given points is constant, is a

Describe the locus of points at distances greater than 4 cm from a given point.

Prove that the locus of a point which moves such that the sum of the square of its distances from the vertices of a triangle is constant is a circle having centre at the centroid of the triangle.

Show that the locus of a point equidistant from a fixed point is a circle with the fixed point as centre.

The locus of a point which moves such that the sum of the squares of the distances from the three vertices of a triangle is constant, is a circle whose centre is at the:

A point P moves in such a way that the ratio of its distance from two coplanar points is always a fixed number (!=1) . Then, identify the locus of the point.

A point P moves in such a way that the ratio of its distance from two coplanar points is always a fixed number (!=1) . Then, identify the locus of the point.

Find the locus of a point which moves in such a way that the sum of its distances from the points (a, 0, 0) and (a, 0, 0) is constant.

Describe the locus of points at distances less than 3 cm from a given point.