The circle `x^(2)+y^(2)=4` ,cuts the line joining the points `A(1,0),&B(3,4)` in two points P& Q.Let `(BP)/(PA)=alpha>0&(BQ)/(QA)=beta>0` .Then `alpha+beta`

The circle x^2+y^2=4 cuts the line joining the points A(1, 0) and B(3, 4) in two points P and Q . Let (BP)/(PA)=alpha and (BQ)/(QA)=beta . Then alpha and beta are roots of the quadratic equation

The circle x^(2)+y^(2)=4 cuts the line joining the points A(1,0) and B(3,4) in two points P and Q. Let B(P)/(P)A=alpha and B(Q)/(Q)A=beta. Then alpha and beta are roots of the quadratic equation

The circle x^2+y^2=4 cuts the line joining the points A(1, 0) and B(3, 4) in two points P and Q . Let BP/PA=alpha and BQ/QA=beta . Then alpha and beta are roots of the quadratic equation

The circle x^2+y^2=4 cuts the line joining the points A(1, 0) and B(3, 4) in two points P and Q . Let BP/PA=alpha and BQ/QA=beta . Then alpha and beta are roots of the quadratic equation

The circle x^2+y^2=4 cuts the line joining the points A(1, 0) and B(3, 4) in two points P and Q . Let BP/PA=alpha and BQ/QA=beta . Then alpha and beta are roots of the quadratic equation

If 2x+3y+4=0 is perpendicular bisector of the segment joining the points A(1,2) and B(alpha,beta) then the value of alpha+beta is

If 2 x+3 y+4=0 is the perpendicular bisector of the segment joining the points A(1,2) and B(alpha, beta) then the value of alpha+beta is