Intercept made by the circle `zbarz+bara+a barz+r=0` on the real axis on complex plane is

The intercepts made by the plane 2x - 3y + 5z + 4 = 0 on the co-ordinate axis are -2,4/3 and -4/5

The centre of circle represented by |z + 1| = 2 |z - 1| in the complex plane is

The Curve possessing the property text the intercept made by the tangent at any point of the curve on the y-axis is equal to square of the abscissa of the point of tangency, is given by

Prove that the angle between the line baraz+abarz=0 and its reflection in the real axis is tan^(-1){(2Re(a)Im(a))/({Re(a)}^(2)-{Im(a)}^(2))}

If x, y in R then x+iy is a non-real complex number, if

The circle x^(2)+y^(2)=1 cats the X - axis at P and Q. Another circle with centre at Q and veriable radius intersects the first circle at R above the X - axis and the line segment PQ at S. Find the maximum area of the triangle QSR.

Verify the Ampere's law for magnetic field of a point dipole of dipole moment overset(to)(M) = M hat(k) . Take C as the closed curve running clockwise along (i) the z-axis from z=a gt 0 to z= R, (ii) along the quarter circle of radius R and centre at the origin, in the first quadrant of x-z plane, (iii) along the x-axis from x = R to x = a and (iv) along the quarter circle of radius a and centre at the origin in the first quadrant of x-z plane.

If 0 lt a lt b lt c and the roots alpha,beta of the equation ax^2 + bx + c = 0 are non-real complex numbers, that

L : 3x + 2y-7 =0 (1) Reduce the above equation in slope intercept from. Find their slope and y -intercept. (2) Reduce the equation into intercept from. Find their intercepts on axis. (3) Reduce the equation in normal form and find perpendicular distance from origin and measure of an angle made by perpendicular with positive side of X -axis.

For a particle in uniform circular motion , the acceleration vec(a) at a point p ( R, theta ) on the circle of radiu R is ( Here theta is measured from the x- axis )