If `alpha`, `beta` are the roots of the equation `ax^(2)+bx+c=0` and `S_(n)=alpha^(n)+beta^(n)`, then `aS_(n+1)+bS_(n)+cS_(n-1)=(n ge 2)`

Similar Questions

Explore conceptually related problems

If alpha and beta are the roots of the equation ax^(2)+bx+b=0 and S_(n)=alpha^(n)+beta^(n), then aS_(n+1)+bS_(n)+cS_(n-1)=

If alpha,beta are the roots of the equation ax^(2)+bx+c=0 and S_(n)=alpha^(n)+beta^(n), then a S_(n+1)+cS_(n)-1)=

If alpha and beta are the roots of the equation x^(2)-ax+b=0 and A_(n)=alpha^(n)+beta^(n)

If alpha, beta are the roots of the equation ax^(2)+bx+c=0 and A_(n)=alpha^(n)+beta^(n) , then aA_(n+2)+bA_(n+1)+cA+(n) is equal to

If alpha, beta are the roots of the equation ax^(2)+bx+c=0 and A_(n)=alpha^(n)+beta^(n) , then aA_(n+2)+bA_(n+1)+cA_n is equal to

If alpha,beta are the roots of the equation ax^2+bx+c=0 and S_n=alpha^n+beta^n , show that aS_(n+1)+bS_n+cS_(n-1)=0 and hence find S_5

If alpha,beta are the roots of the equation, x^(2)-x-1=0 and S_(n)=2023 alpha^(n)+2024 beta^(n) ,then 2S_(12)=S_(11)+S_(10)

If alpha and beta are the roots of ax^(2)+bx+c=0andS_(n)=alpha^(n)+beta^(n), then aS_(n+1)+bS_(n)+cS_(n-1)=0 and hence find S_(5)