If alpha,beta re the roots of a x^2+c=b ...

If `alpha,beta` re the roots of `a x^2+c=b x ,` then the equation `(a+c y)^2=b^2y` in `y` has the roots `alphabeta^(-1),alpha^(-1)beta` b. `alpha^(-2),beta^(-2)` c. `alpha^(-1),beta^(-1)` d. `alpha^2,beta^2`

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If alpha,beta re the roots of a x^2+c=b x , then the equation (a+c y)^2=b^2y in y has the roots a. alphabeta^(-1),alpha^(-1)beta b. alpha^(-2),beta^(-2) c. alpha^(-1),beta^(-1) d. alpha^2,beta^2

If alpha,beta are the roots of a x^2+c=b x , then the equation (a+c y)^2=b^2y in y has the roots a. alphabeta^(-1),alpha^(-1)beta b. alpha^(-2),beta^(-2) c. alpha^(-1),beta^(-1) d. alpha^2,beta^2

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If `alpha,beta` re the roots of `a x^2+c=b x ,` then the equation `(a+c y)^2=b^2y` in `y` has the roots `alphabeta^(-1),alpha^(-1)beta` b. `alpha^(-2),beta^(-2)` c. `alpha^(-1),beta^(-1)` d. `alpha^2,beta^2`

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