Let `lamda` be a real number for which the system of linear equations
`x+y+z=6`
`4x+lamday-lamdaz=lamda-2`
`3x+2y-4z=-5`
has infinity many solutions then `lamda` is a root of the quadratic equation:

Let lambda be a real number for which the system of linear equations x+y+z=64x+lambda y-lambda z=lambda-23x+lambda y-4z=-5 has infinity many solutions then lambda is a root of the quadratic equation:

Let lambda be a real number for which the system of linear equations x + y +z =6, 4x + lambday -lambdaz = lambda -2 and 3x + 2y-4z =-5 has infinitely many solutions. Then lambda is a root of the quadratic equation

Let lambda be a real number for which the system of linear equations x + y +z =6, 4x + lambday -lambdaz = lambda -2 and 3x + 2y-4z =-5 has infinitely many solutions. Then lambda is a root of the quadratic equation

For what value of lamda the system of equations x+y+z=6, 4x+lamda y-lamda z=0 , 3x+2y-4z=-5 deos not possess a solution?

The system of linear equations x - 2y + z = 4 2x + 3y - 4z = 1 x - 9y + (2a + 3)z = 5a + 1 has infinitely many solution for:

The system of linear equations x - 2y + z = 4 2x + 3y - 4z = 1 x - 9y + (2a + 3)z = 5a + 1 has infinitely many solution for:

Let S be the set of all lamda in R for which the system of linear equations 2x - y + 2z =2 x -2y + lamda x=-4 x + lamda y + z=4 has no solution . Then the set S

Consider the system of equations x+y+z=5 x+2y+lamda^2z=9 x+3y+lamdaz=mu

The system of linear equations (lamda+3)x+(lamda+2)y+z=0 3x+(lamda+3)y+z=0 2x+3y+z=0 has a non trivial solution