![The roots of the equation ax^(2)+bx+c=0 are alpha and beta. Form the quadratic equation whose roots are alpha+(1)/(beta) and beta+(1)/(alpha). The roots of the equation ax^(2)+bx+c=0 are alpha and beta. Form the quadratic equation whose roots are alpha+(1)/(beta) and beta+(1)/(alpha).](https://d10lpgp6xz60nq.cloudfront.net/web-thumb/643499237_web.png)
The roots of the equation ax^(2)+bx+c=0 are alpha and beta. Form the quadratic equation whose roots are alpha+(1)/(beta) and beta+(1)/(alpha).
If the sum of coefficient of ax^2+bx+c=0 is zero (ie. a+b+c=0) then the roots of the equation are: (a) 1 b/a (b) 1 c/a (c) 0 c/a (d) 1
![The quadratic equation whose roots are reciprocal of the roots of the equation `ax^2 +bx+c=0` i... - YouTube The quadratic equation whose roots are reciprocal of the roots of the equation `ax^2 +bx+c=0` i... - YouTube](https://i.ytimg.com/vi/Xm9fmMkvfvQ/maxresdefault.jpg)
The quadratic equation whose roots are reciprocal of the roots of the equation `ax^2 +bx+c=0` i... - YouTube
![if a b c are positive real numbers prove that both the roots of ax 2 bx c 0 have negative real parts g99awsff -Maths - TopperLearning.com if a b c are positive real numbers prove that both the roots of ax 2 bx c 0 have negative real parts g99awsff -Maths - TopperLearning.com](https://images.topperlearning.com/topper/tinymce/integration/showimage.php?formula=c9691dea37c9fc4d8cdbbf7c76e744cc.png&d=0)