If f(x) = 2x4 - 13x2 + ax + b is divisible by x2 - 3x + 2, then (a, b) is equal to
(- 9, - 2)
(6, 4)
(9, 2)
(2, 9)
Let S be a finite set containing n elements. Then the total number of commutative binary operation on S is
The output of the circuit is
(x2 + x3) . [(x1 · x2) . x3']
(x2 + x3') . [(x1 · x2) . x3']
(x2 + x3) + [(x1 · x2) . x3']
(x2 . x3) . [(x1 · x2) . x3']
The boolean expression corresponding to the combinational circuit is
(x1 + x2 · x'3)x2
(x1 . (x2 + x3)) + x2
(x1 . (x2 + x'3)) + x2
(x1 + (x2 + x'3)) + x3
In a boolean algebra B with respect to '+' and '.', x' denotes the negation of x B. Then
x - x' = 1 and x · x' = 1
x + x' = 1 and x . x' = 0
x + x' = 0 and x . x' = 0
x + x' = 0 and x . x' = 0
B.
x + x' = 1 and x . x' = 0
By the complement law,
x + x' = 1 and x . x' = 0
If a function f satisfies f {f(x)} = x + 1 for all real values of x and if f (0) = , then f(1) is equal to
1
2