Question 11 MarkIf $\alpha$ and $\beta$ are the roots of the equation $4 x^2+3 x+$ $7=0$, then $\frac{1}{\alpha}+\frac{1}{\beta}$ is equal to $\frac{3}{7}$.AnswerFalseView full question & answer→
Question 21 MarkIf $a$ and $b$ are the roots of equation $x^2+x+1=0$, then $a^2+b^2=-1$.AnswerTrueView full question & answer→
Question 31 MarkIf $z=\frac{1+i}{1-i}$, then the value of $z^4$ is -2 .AnswerFalseView full question & answer→
Question 41 MarkThe square root of $i$ is $\pm \frac{1}{\sqrt{2}}(1+i)$.AnswerTrueView full question & answer→
Question 51 Mark$\left|z_1+z_2\right|^2=\left|z_1\right|^2+\left|z_2\right|^2+2 \operatorname{Re}\left(z_1 \bar{z}_2\right)$AnswerTrueView full question & answer→
Question 61 Mark$\left|z_1 z_2\right|=\left|z_1\right|\left|z_2\right|$AnswerTrueView full question & answer→
Question 71 MarkThe multiplicative inverse of $z=3-2 i$ is $\frac{3}{13}-\frac{2}{13} i$.AnswerFalseView full question & answer→
Question 81 MarkFor any two complex numbers $z_1$ and $z_2, z_1+z_2=$ $z_2+z_1$.AnswerTrueView full question & answer→