w(1), w(2) be roots of (a+barc)z^(2)+(b+...

`w_(1)`, `w_(2)` be roots of `(a+barc)z^(2)+(b+barb)z+(bara+c)=0`. If `|z_(1)| lt 1`, `|z_(2)| lt 1`, then

`|w_(1)| lt 1`

`|w_(1)| = 1`

`|w_(2)| lt 1`

`|w_(2)| = 1`

Text Solution

Verified by Experts

The correct Answer is:

B, D

`(b,d)` `a+barc ne 0`
Now, `(a+barc)w_(1)^(2)+(b+barb)w_(1)+(bara+c)=0`
`implies (bara+c)w_(1)^(2)+(b+barb)barw_(1)+(a+barc)=0` ,brgt Since, `barw_(1) ne 0`, we get `(a+barc)(1)/(barw_(1)^(2))+(b+barb)(1)/(barw_(1))+(bara+c)=0`
Hence, `(1)/(barw_(1))` is also a root, `w_(2) ne (1)/(barw_(1))`, so `w_(1)=(1)/(barw_(1))`
`implies |w_(1)|=1`
Similarly `|w_(2)|=1`

Topper's Solved these Questions

COMPLEX NUMBERS
CENGAGE|Exercise Matching Column|1 Videos
COMPLEX NUMBERS
CENGAGE|Exercise Comprehension|11 Videos
COMPLEX NUMBERS
CENGAGE|Exercise JEE Advanced Previous Year|14 Videos
CIRCLES
CENGAGE|Exercise Question Bank|16 Videos
CONIC SECTIONS
CENGAGE|Exercise Solved Examples And Exercises|87 Videos

Similar Questions

Explore conceptually related problems

If |z_(1)+z_(2)|=|z_1|+|z_2| then

Let a , b , c be distinct complex numbers with |a|=|b|=|c|=1 and z_(1) , z_(2) be the roots of the equation az^(2)+bz+c=0 with |z_(1)|=1 . Let P and Q represent the complex numbers z_(1) and z_(2) in the Argand plane with /_POQ=theta , o^(@) lt 180^(@) (where O being the origin).Then

z_(1), z_(3), and z_(3) are complex numbers such that z_(1) + z_(2) + z_(3)=0 and |z_(1)| = |z_(2)| = |z_(3)| = 1 then z_(1)^(2)+z_(2)^(2)+z_(3)^(3)

Let x_(1)" and "y_(1) be real numbers. If z_(1)" and "z_(2) are complex numbers such that |z_1|=|z_2|=4 , then |x_(1)z_(1)-y_(1)z_(2)|^(2)+|y_(1)z_(1)+x_(1)z_(2)|^(2)=

|z_(1)|=|z_(2)|" and "arg z_(1)+argz_(2)=0 then

If z_(1) , z_(2) are two complex numbers such that |(z_(1)-z_(2))/(z_(1)+z_(2))|=1 and iz_(1)=Kz_(2) , where K in R , then the angle between z_(1)-z_(2) and z_(1)+z_(2) is

z_1a n dz_2 are the roots of 3z^2+3z+b=0. if O(0),(z_1),(z_2) form an equilateral triangle, then find the value of bdot

For any two complex number z_(1) and z_(2) , such that |z_(1)| = |z_(2)| = 1 and z_(1) z_(2) ne -1 , then show that (z_(1) + z_(2))/(1 + z_(1)z_(2)) is real number.

CENGAGE-COMPLEX NUMBERS-Multiple Correct Answer

Complex numbers whose real and imaginary parts x and y are integers a...
Text Solution
|
If a,b,c,d in R and all the three roots of az^3 + bz^2 + cZ + d=0 ha...
Text Solution
|
Suppose three real numbers a, b, c are in G.P. Let z=(a+ib)/(c-ib). Th...
Text Solution
|
w(1), w(2) be roots of (a+barc)z^(2)+(b+barb)z+(bara+c)=0. If |z(1)| l...
Text Solution
|
A complex number z satisfies the equation |Z^(2)-9|+|Z^(2)|=41, then t...
Text Solution
|
Let a, b, c be distinct complex numbers with |a|=|b|=|c|=1 and z(1), z...
Text Solution
|
Let Z(1)=x(1)+iy(1), Z(2)=x(2)+iy(2) be complex numbers in fourth quad...
Text Solution
|
If the imaginery part of (z-3)/(e^(itheta))+(e^(itheta))/(z-3) is zero...
Text Solution
|
If alpha Is the fifth root of unity, then :
Text Solution
|
If z1,z2,z3 are any three roots of the equation z^6=(z+1)^6, then arg(...
Text Solution
|
Let z(1), z(2), z(3) are the vertices of DeltaABC, respectively, such ...
Text Solution
|