bcafamilyComplex Number
13. If ω is the cube root of unity the (1 - ω + ω2)3 = [2075]
0
-8
1
8
14. = [2075]
13. (1 + i)6 + (1 - i)6 = [2073]
0
i
1
-1
14. [2073]
-i
1+i
2i
-2i
13. The real part of is [2072]
-2/5
2/5
1/5
1
14. If (1 + ω + ω2)( 1 + ω - ω2) = [2072]
0
2
4
14. The absolute value of the complex number (1+i)-1 is [2070]
1
2
Other Questions
$ ({2i \over 1 + i})^2 $
$i$
$2i$
$1-i$
$1-2i$
$({2i \over 1 + i})^2$
$ {4i^2}\over {1 + i^2 + 2i} $
$-4\over 2i$
$-2 \over i $
$2i^2\over i$
$2i$
$ ({1-i \over 1 + i})^{20} $ is equal to
1
-1/2
1/√2
-1
$({1-i \over 1+ i})^{20}$ $({{(1-i)^2}\over{(1+i)^2}})^{10}$ $ ({{1+i^2-2i}\over{1+i^2+2i}})^{10}$ ${-2i \over 2i}^{10}$ $-1^{10}$ $1$
(1+i)6 + (1-i)3 is equal to
2 + i
2 - 10i
-2 + i
-2 - 10i
$ (1+i)^6+(1-i)^3$ $(1+i^2+2i)^3+(1-3i+3i^2-i^3)$ $8i^3+1-3i-3+i$ $-8i-2-2i$ $-2-10i$
The modulus of √2i - √ -2i is
2
√ 2
0
2√2
The conjugate complex number of $ 2 - i \over (1 - 2i)^2$ is
${2\over 25} + {11 \over 25}i$
${2\over 25} - {11 \over 25}i$
$-{2\over 25} + {11 \over 25}i$
$-{2\over 25} - {11 \over 25}i$
If ω be a cube rood of unity, then the value of (1-ω+ω2)4 (1 + ω - ω2)4 is
ω
ω2
0
256
$(1 + ω - ω^2 - ω - ω^2 + ω + ω^2 + ω^3 - ω^4)^4 $
$(1 - ω^2 + 2 - ω)^4 $
$(3-ω^2-w)^4 $
$ [3-(1+ω+ω^3-1)^4$ $[3-(0-1)]^4$ 4^4=256
Find the square root of complex number −8−6i
We have $x + yi = sqrt (8 + 6i)$
take the square of both the sides
$ => (x + yi) ^2 = 8 + 6i$
$ => x^2 + y^2*i^2 + 2xyi = 8 + 6i$
equate the real and complex coefficients
$x^2 – y^2 = 8 and 2xy = 6 $
$2xy = 6$
$=> xy = 3$
$=> x = 3/y$
Substitute in $x^2 – y^2 = 8$
$=> (3/y) ^2 – y^2 = 8$
$=> 9/y^2 – y^2 = 8$
$=> 9 – y^4 = 8y^2$
$=> y^4 + 8y^2 – 9 = 0$
$=> y^4 + 9y^2 – y^2 – 9 = 0$
$=> y^2(y^2 + 9) – 1(y^2 + 9) = 0$
$=> (y^2 – 1) (y^2 + 9) = 0$
$=> y^2 = 1 and y^2 = -9$
we leave out y^2 = -9 as the coefficient y is real
$y^2 = 1$
$=> y = 1, x = 3$
and $ y = -1, x = -3$
The square root of $8 + 6i = 3 + i ; -3 – i$
Compute $(1 - ω + ω^2)(1 + ω - ω^2)$
$ =((1 + \omega^2) - \omega)(1 + \omega - \omega^2) $
$ =(-\omega - \omega)(-\omega^2 - \omega^2) $
$ =(-2\omega)(-2\omega^2) $
$ =4\omega^3=4 $
$(1+ i)^6 + (1-i)^6$
$ =(1+ 2i+ i^2)^3 +(1 -2i +i^2)^3 $
$ =(2i) +(-2i)^(3) $
$ =( 8-8)i^(3) =0 $
$ (1-i)^4$
We know $ (a-b)^2=(a^2+b^2-2ab) $ and $i^2=-1.$
Applying the formula we get
$(1+i^2-2i)^2=(1+(-1)-2i)^2$
$=(-2i)^2$
$(4(i)^2)=-4$
$ z = {2 + i \over 1 - i}$ find the real part
$ {2 + i \over 1 - i}.{1 + i \over 1 - i}$
$ 2 + 2i + i + i^2 \over 1 + i -i -i^2$
$ 2 + 2i + i - 1 \over 1 + i - i +1$
$ 1 + 3i \over 2$
$ {1\over 2 } + {3\over2}i$
