MCQs: Ch 04 Quadratic Equations

High quality MCQs of Chapter 01 Number System of Text Book of Algebra and Trigonometry Class XI (Mathematics FSc Part 1 or HSSC-I), Punjab Text Book Board, Lahore. The answers are given at the end of the page.

An equation $ax^2+bx+c=0$ is called
1. Linear
2. Quadratic
3. Cubic equation
4. None of these
For a quadratic equation $ax^2+bx+c=0$
1. $b \neq 0$
2. $c \neq 0$
3. $a \neq 0$
4. None of these
Another name for a quadratic equation in $x$ is
1. 2nd degree
2. Linear
3. Cubic
4. None of these
Number of basic techniques for solving a quadratic equation are
1. Two
2. Three
3. Four
4. None of these
The solutions of the quadratic equation are also called its
1. Factors
2. Roots
3. Coefficients
4. None of these
Maximum number of roots of a quadratic equation are
1. One
2. Two
3. Three
4. None of these
An expression of the form $ax^2+bx+c$ is called
1. Polynomial
2. Equation
3. Identity
4. None of these
If $ax^2+bx+c=0$, then $\{a,b\}$ is called
1. Factors
2. Solution set
3. Roots
4. None of these
Equation having same solution are called
1. Exponential equations
2. Radical equations
3. Simultaneous equations
4. Reciprocal equations
The Quadratic formula for $ax^2+bx+c=0$, $a\neq 0$ is
1. $x= \frac{b \pm \sqrt{b^2-4ac}}{a}$
2. $x= \frac{-b \pm \sqrt{b^2+4ac}}{2a}$
3. $x= \frac{-b \pm \sqrt{4ac-b^2}}{2a}$
4. $x= \frac{-b \pm \sqrt{b^2-4ac}}{2a}$
A quadratic equation which cannot be solved by factorization, that will be solved by
1. Comparing coefficients
2. Completing square
3. Both $A$ and $B$
4. None of these
If we solve $ax^2+bx+c=0$ by complete square method, we get
1. Cramer's rule
2. De Morgan's Law
3. Quadratic formula
4. None of these
Equations, in which the variable occurs in exponent, are called
1. Reciprocal Equations
2. Exponential Equations
3. Radical Equations
4. None of these
Equations, which remains unchanged when $x$ is replaced by $\frac{1}{x}$ are called
1. Reciprocal Equations
2. Radical Equations
3. Exponential Equations
4. None of these
Each complex cube root of unity is
1. Cube of the other
2. Square of the other
3. Bi-square of the other
4. None of these
The sum of all the three cube roots of unity is
1. Unity
2. -ve
3. +ve
4. Zero
The product of all the three cube roots of unity is
1. Zero
2. -ve
3. Unity
4. Two
For any $n \in Z$, $w^n$ is equivalent to one of the cube roots of
1. Unity
2. $8$
3. $27$
4. $64$
The sum of the four fourth roots of unity is
1. Unity
2. -ve
3. +ve
4. Zero
The product of all the four fourth roots of unity is
1. $1$
2. $-1$
3. $2$
4. $-2$
Both the complex fourth roots of unity are
1. Reciprocal of each other
2. Conjugate of each other
3. Additive inverse
4. Multiplicative inverse
Both the real fourth roots of unity are
1. Reciprocal of each other
2. Conjugate of each other
3. Additive inverse
4. Multiplicative inverse
An expression of the form $a_nx^n+a_{n-1}x^{n-1}+...+a_1x+a_0$ is called
1. Quadratic equation
2. Polynomial in $x$
3. Non-linear equation
4. None of these
A polynomial in$x$ can be considered as a
1. Non-linear equation
2. Polynomial function of $x$
3. Both $A$ and $B$
4. None of these
The highest power of $x$ in polynomial in $x$ is called
1. Coefficient of polynomial
2. Exponent of polynomial
3. Degree of polynomial
4. None of these
$(\frac{-1-\sqrt{3i}}{2})^5$ is equal to
1. $\frac{1-\sqrt{3i}}{2}$
2. $\frac{-1-\sqrt{3i}}{2}$
3. $\frac{-1+\sqrt{3}}{2}$
4. $\frac{-1+\sqrt{3i}}{2}$
If $w$ is the complex root of unity then its conjugate is
1. $-w$
2. $-w^2$
3. $w^2$
4. $w^3$
If a polynomial $f(x)$ of degree $x \geq 1$ is divided by $(x-a)$ then reminder is
1. $a$
2. $f(a)$
3. $n$
4. None of these
If a polynomial $f(x)=x^3+4x^2-2x+5$ is divided by $(x-1)$ then the reminder is
1. $4$
2. $2$
3. $8$
4. $0$
If $(x-a)$ is the factor of a polynomial $f(x)$ then $f(a)=$
1. $1$
2. $0$
3. $2$
4. $-1$
There is a nice short cut method for long division of polynomial $f(x)$ by $(x-a)$ is called
1. Factorization
2. Rationalization
3. Synthetic division
4. None of these
If a polynomial $f(x)$ is divided by $(x+a)$ then the reminder is
1. $f(a)$
2. $f(-a)$
3. $0$
4. None of these
If $x^3+3x^2-6x+2$ is divided by $x+2$ then the reminder
1. $-18$
2. $9$
3. $-9$
4. $18$
The graph of a quadratic function
1. Hyperbola
2. Straight line
3. Parabola
4. Triangle
If $x-1$ is a factor of $5x^2+10x-a$ then $a=$
1. $n(B)$
2. $n(A)$
3. $\phi$
4. non-empty
The sum of the roots of the equation $ax^2+bx+c=0$ is
1. $\displaystyle\frac{b}{a}$
2. $\displaystyle\frac{b}{c}$
3. $\displaystyle\frac{c}{a}$
4. $-\displaystyle\frac{b}{a}$
The sum of the roots of the equation $ax^2-bx+c=0$ is
1. $\displaystyle\frac{b}{c}$
2. $\displaystyle\frac{b}{a}$
3. $-\displaystyle\frac{b}{a}$
4. $-\displaystyle\frac{c}{a}$
The product of the roots of the equation $ax^2+bx+c=0$ is
1. $\displaystyle\frac{b}{c}$
2. $\displaystyle\frac{b}{a}$
3. $\displaystyle\frac{c}{a}$
4. $-\displaystyle\frac{c}{a}$
The product of the roots of the equation $ax^2-bx+c=0$ is
1. $\displaystyle\frac{c}{a}$
2. $\displaystyle\frac{b}{a}$
3. $\displaystyle\frac{a}{b}$
4. $-\displaystyle\frac{c}{a}$
If $S$ and $P$ are sum and product of the roots of a quadratic equation then
1. $x^2+Sx+p=0$
2. $x^2+Sx-p=0$
3. $x^2-Sx-p=0$
4. $x^2-Sx+p=0$
For what value of $K$ will equation $x^2-Kx+4=0$ have sum of roots equal to product of roots
1. $3$
2. $-2$
3. $-4$
4. $4$
The nature of the roots of quadratic equation depends upon the value of the expression
1. $b^2+4ac$
2. $4ac-b^2$
3. $b^2-4ac$
4. None of these
If $ax^2+bx+c=0$, $a\neq 0$ then expression $(b^2-4ac)$ is called
1. Quotient
2. Reminder
3. Discriminant
4. None of these
If roots of $ax^2+bx+c=0$ are equal then $b^2-4ac$ is equal to
1. $1$
2. $-1$
3. $0$
4. None of these
If roots of $ax^2+bx+c=0$ are imaginary then
1. $b^2-4ac=0$
2. $b^2-4ac<0$
3. $b^2-4ac>0$
4. None of these
If roots of $ax^2+bx+c=0$ are rational then $b^2-4ac$ is
1. $-ve$
2. Perfect square
3. Not a perfect square
4. None of these
If roots of $ax^2+bx+c=0$ are real and unequal then $b^2-4ac$ is
1. $-ve$
2. Zero
3. $+ve$
4. None of these
If $xy$ term is missing coefficients of $x^2$ and $y^2$ are equal in two $2$nd degree equations then by subtraction, we get
1. Non-linear equation
2. Linear equation
3. Quadratic equation
4. None of these
If one root of quadratic equation is $a- \sqrt{b}$ then the other root is
1. $\sqrt{a}-b$
2. $\sqrt{a}+b$
3. $-a+\sqrt{b}$
4. $a+\sqrt{b}$
If $\alpha$, $\beta$ are the roots of a quadratic equation then
1. $(\alpha x)(\beta x)=0$
2. $(\alpha +x)(\alpha +\beta)=0$
3. $(x-\alpha)(x- \beta)=0$
4. $(x+\alpha)(x+\beta)=0$
$4x^2-9=0$ is called
1. Quadratic equation
2. Purely quadratic
3. Linear equation
4. Quadratic polynomial
Roots of $x^2-4=0$ are
1. $2,2$
2. $\pm 2i$
3. $-2,2$
4. $-2,-2$
$w^{15}= ----- $
1. $1$
2. $-1$
3. $i$
4. $-i$
Equation whose roots are $2$, $3$ is
1. $x^2+5x+6=0$
2. $x^2-5x+6=0$
3. $x^2+x-6=0$
4. $x^2-x+6=0$
Roots of $x^2+4=0$ are
1. Real
2. Rational
3. Irrational
4. Imaginary
Extraneous roots occur in
1. Exponential equation
2. Reciprocal equation
3. Radical equation
4. In every equation
Roots of $x^3=8$ are
1. One real
2. All imaginary
3. One real two imaginary
4. Two real one imaginary
If $1,w,w^2$ are cube roots of unity then $w^n$ ($n$ is positive integer)
1. Also must be a root
2. May be a root
3. is not a root
4. $w^n=\pm 1$
Roots of $x^2-4x+4=0$ are
1. Equal
2. Unequal
3. Imaginary
4. Irrational
Discriminant of $x^2-6x+5=0$ is
1. Not a perfect square
2. Perfect square
3. Zero
4. Negative
Discriminant of $x^2+x+1=0$ is
1. $3$
2. $-3$
3. $3i$
4. $-3i$
Roots of $x^2-5x+6=0$ are
1. Real distinct
2. Real equal
3. Real unequal
4. Equal
$4x^2+ \frac{2}{x}+3$ is a ——
1. Polynomial of degree $2$
2. Polynomial of degree $1$
3. Quadratic equation
4. None of these
The solution set of $x^2-7x+10=0$ is
1. $\{7,10\}$
2. $\{2,5\}$
3. $\{5,10\}$
4. None of these
If a polynomial $R(x)$ is divided by $x-a$, then the reminder is
1. $R(x)$
2. $R(a)$
3. $R(x-a)$
4. $R(-a)$
If $x^3+4x^2-2x+5$ is divided by $x-1$, then the reminder is
1. $-8$
2. $6$
3. $-6$
4. $8$
The sum of roots of the equation $ax^2+bx+c=0$, $a \neq 0$ is ——
1. $\displaystyle{\frac{c}{a}}$
2. $\displaystyle{\frac{b}{a}}$
3. $\displaystyle{-\frac{b}{a}}$
4. $\displaystyle{\frac{a}{c}}$
The $S$ and $P$ are the sum and product of roots of a quadratic equation, then the quadratic equation is
1. $x^2+Sx+P=0$
2. $x^2-Sx-P=0$
3. $x^2-Sx+P=0$
4. $x^2+Sx-P=0$
The roots of the equations $ax^2+bx+c$ one real and equal if
1. $b^2-4ac\geq 0$
2. $b^2-4ac> 0$
3. $b^2-4ac< 0$
4. $b^2-4ac= 0$
The roots of the equations $ax^2+bx+c=0$ are complex or imaginary if
1. $b^2-4ac\geq 0$
2. $b^2-4ac> 0$
3. $b^2-4ac< 0$
4. $b^2-4ac= 0$
The roots of the equations $ax^2+bx+c$ are real and distinct if
1. $b^2-4ac\geq 0$
2. $b^2-4ac> 0$
3. $b^2-4ac< 0$
4. $b^2-4ac= 0$
If the roots of $2x^2+kx+8=0$ are equal then $k=-----$
1. $\pm 16$
2. $64$
3. $32$
4. $\pm8$
If $w$ is a cube root of unity, then $1+w+w^2=----$
1. $-1$
2. $0$
3. $1$
4. $2$
The roots of a equation will be equal if $b^2-4ac$ is
1. $<0$
2. $>0$
3. $0$
4. $1$
The roots of a equation will be irrational if $b^2-4ac$ is
1. Positive and perfect square
2. Positive but not perfect square
3. Negative and perfect square
4. Negative but not a perfect square
The product of cube roots of unity is
1. $0$
2. $-1$
3. $1$
4. None of these
For any integer $k$, $w^n=$ when $n=3k$
1. $0$
2. $1$
3. $w$
4. $w^2$
$w^{29}=$
1. $0$
2. $1$
3. $w$
4. $w^2$
$(3+w)(2+w^2)=$
1. $1$
2. $2$
3. $3$
4. $4$
$w^{28}+w^{29}=$
1. $1$
2. $-1$
3. $w$
4. $w^2$
There are —– basic techniques for solving a quadratic equation
1. Two
2. Three
3. Four
4. None of these
If $w=\displaystyle{\frac{-1+\sqrt{3}i}{2}}$ then $w^2=$
1. $\displaystyle{\frac{-1+\sqrt{3}i}{2}}$
2. $\displaystyle{\frac{1+\sqrt{3}i}{2}}$
3. $\displaystyle{\frac{-1-\sqrt{3}i}{2}}$
4. None of these
The sum of the four fourth roots of unity is
1. $0$
2. $1$
3. $2$
4. $3$
The product of the four fourth roots of unity is
1. $0$
2. $1$
3. $-1$
4. $i$
The polynomial $x-a$ is a factor of the polynomial $f(x)$ iff
1. $f(a)=0$
2. $f(a)$ is negative
3. $f(a)$ is positive
4. None of these
Two quadratic equations in which $xy$ term is not present and coefficients of $x^2$ and $y^2$ are equal, give a —— by subtraction.
1. Parabola
2. Homogeneous equation
3. Quadratic equation
4. Linear equation
If $\alpha, \beta$ are roots of $3x^2+2x-5=0$ then $\displaystyle{\frac{1}{\alpha}+\frac{1}{\beta}}=------$
1. $\displaystyle{\frac{5}{2}}$
2. $\displaystyle{\frac{5}{3}}$
3. $\displaystyle{\frac{2}{5}}$
4. $\displaystyle{-\frac{2}{5}}$
The cube roots of $8$ are
1. $1,w,w^2$
2. $2,2w,2w^2$
3. $3,3w,3w^2$
4. None of these
The four fourth roots of unity are
1. $0,1,-i,i$
2. $0,-1,i,-i$
3. $-2,2,2i,-2i$
4. None of these
If $w$ is complex cube root of unity then $w= -----$
1. $0$
2. $1$
3. $w^2$
4. $w^{-2}$
For equal roots of $ax^2+bx+c=0$, $b^2-4ac$ will be
1. Negative
2. Zero
3. $1$
4. $2$
$(1+w-w^2)^8=$
1. $4w$
2. $16w$
3. $64w$
4. $256w$
If $w$ is the imaginary cube root of unity, then the quadratic equation with roots $2w$ and $2w^2$ is
1. $x^2+3x+9=0$
2. $x^2-3x+9=0$
3. $x^2-2x+4=0$
4. $x^2+2x+4=0$
If a polynomial $f(x)$ is divided by a linear divisor $ax+1$, the reminder is
1. $\displaystyle{f(\frac{1}{a})}$
2. $\displaystyle{-f(\frac{1}{a})}$
3. $f(a)$
4. $f(-a)$
If the roots of the quadratic equation $2x^2-4x+5=0$ are $\alpha$ and $\beta$, then $(\alpha+1)(\beta+1)=$
1. $\displaystyle{\frac{2}{11}}$
2. $\displaystyle{-\frac{2}{11}}$
3. $\displaystyle{\frac{11}{2}}$
4. None of these
$x^2+4x+4$ is
1. Polynomial
2. Equation
3. Identity
4. None of these
The graph of quadratic function is
1. Circle
2. Parabola
3. Triangle
4. Rectangle
$w^{65}=$
1. $0$
2. $1$
3. $w$
4. $w^2$
If $\alpha, \beta$ are roots of $3x^2+2x-5=0$, then $\alpha^2+\beta^2=$
1. $\displaystyle{\frac{9}{34}}$
2. $\displaystyle{-\frac{9}{34}}$
3. $\displaystyle{\frac{34}{9}}$
4. $\displaystyle{-\frac{34}{9}}$
If $a>0$, then the function $f(x)=ax^2+bx+c$ has
1. Maximum value
2. Minimum value
3. Constant value
4. Positive value
The product of the roots of equation $5x^2-x+2=0$ is
1. $\displaystyle{\frac{5}{2}}$
2. $\displaystyle{-\frac{5}{2}}$
3. $\displaystyle{\frac{2}{5}}$
4. $2$

Answers

1-b, 2-c, 3-a, 4-b, 5-b, 6-b, 7-a, 8-b, 9-c, 10-d, 11-b, 12-c, 13-b, 14-a, 15-b, 16-d, 17-c, 18-a, 19-d, 20-b, 21-b, 22-c, 23-b, 24-b, 25-c, 26-d, 27-c, 28-b, 29-c, 30-b, 31-c, 32-b, 33-d, 34-c, 35-d, 36-d, 37-b, 38-c, 39-d, 40-d, 41-d, 42-c, 43-c, 44-c, 45-c, 46-b, 47-c, 48-b, 49-d, 50-c, 51-b, 52-c, 53-a, 54-b, 55-d, 56-c, 57-c, 58-d, 59-a, 60-b, 61-b, 62-a, 63-d, 64-b, 65-b, 66-d, 67-c, 68-c, 69-d, 70-c, 71-b, 72-d, 73-b, 74-b, 75-b, 76-c, 77-b, 78-d, 79-d, 80-b, 81-b, 82-c, 83-a, 84-c, 85-a, 86-d, 87-c, 88-b, 89-b, 90-d, 91-b, 92-c, 93-d, 94-b, 95-a, 96-a, 97-b, 98-d, 99-c, 100-a, 101-d

MCQs: Ch 04 Quadratic Equations

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MCQs: Ch 04 Quadratic Equations

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