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SAT II Math I : Single-Variable Algebra

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Example Questions

Example Question #91 : Single Variable Algebra

Solve the equation: -2x+4 = 18-x

Possible Answers:

$-\frac{14}{3}$

$\frac{14}{3}$

$\frac{22}{3}$

Correct answer:

Explanation:

Add on both sides of the equation.

-2x+4 +2x= 18-x+2x

4=18+x

Subtract 18 on both sides of the equation.

4-18=18+x-18

x=-14

The answer is:

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Example Question #91 : Single Variable Algebra

Solve the following equation: $\frac{2}{3x}+4 = \frac{5}{6x}$

Possible Answers:

$\frac{5}{48}$

$\frac{1}{12}$

$\frac{1}{36}$

$\frac{5}{8}$

$\frac{1}{24}$

Correct answer:

$\frac{1}{24}$

Explanation:

Multiply both sides by the least common denominator . This will eliminate the fractions on both sides of the equation.

$6x(\frac{2}{3x}+4 )= \frac{5}{6x}\cdot 6x$

4+24x = 5

Subtract 4 on both sides.

4+24x -4= 5-4

24x=1

Divide by 24 on both sides.

$\frac{24x}{24}=\frac{1}{24}$

The answer is: $\frac{1}{24}$

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Example Question #92 : Single Variable Algebra

$\textup{A cubic polynomial}$ p(x) $\textup{has lead term is}$ $x^{3}$ $\textup{and rational coefficients}$

p(3) = p(5) = 0

$\textup{Which of the following is this polynomial?}$

Possible Answers:

$p(x)= x^{3} - 5x^{2}- 9x+45$

$\textup{Insufficient information exists to determine the polynomial}$

$p(x)= x^{3} - 3x^{2}- 25 x+75$

$p(x)= x^{3} - 13x^{2}+55 x-75$

$p(x)= x^{3} - 11x^{2}+39 x-45$

Correct answer:

$\textup{Insufficient information exists to determine the polynomial}$

Explanation:

A cubic polynomial has three zeroes, if a zero of multiplicity is counted times. Since its lead term is $x^{3}$ , we know that

$p(x) = (x-b_{1}) (x-b_{2}) (x-b_{3})$ ,

where $b_{1}$ , $b_{2}$ , and $b_{3}$ are its zeroes.

p(3) = p(5) = 0 , so 3 and 5 are zeroes of p(x) , and, by the Factor Theorem, x-3 and x-5 are among the linear factors - that is,

$p(x) = (x- 3) (x-5) (x-b_{3})$

for some $b_{3}$ .

However, we are not given the multiplicity of either 3 or 5, so we do not know which, if either, of the two are equal to $b_{3}$ . Without this information, we cannot determine p(x) for certain.

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Example Question #92 : Single Variable Algebra

A polynomial p(x) of degree 4 has as its lead term $x^{4}$ and has rational coefficients. p(x) has only three distinct zeroes, two of which are and 1 + 4i .

Which of the following is this polynomial?

Possible Answers:

$p(x)= x ^{4} + 4x^{3}+14x^{2}+84x+153$

Cannot be determined

$p(x)= x ^{4} -8x^{3}+6x^{2}+72x-135$

$p(x)= x ^{4} -8x^{3}+38x^{2}-60x+153$

$p(x)= x ^{4} +4x^{3}-18x^{2}-108x-135$

Correct answer:

$p(x)= x ^{4} + 4x^{3}+14x^{2}+84x+153$

Explanation:

A fourth-degree, or quartic, polynomial has four zeroes, if a zero of multiplicity is counted times. Since its lead term is $x^{4}$ , we know by the Factor Theorem that

$p(x) = (x-b_{1}) (x-b_{2}) (x-b_{3})(x-b_{4})$

where the $b_{n}$ terms are the four zeroes.

A polynomial with rational coefficients has its imaginary zeroes in conjugate pairs. Since p(x) is such a polynomial, then, since 1 + 4i is a zero, so is its complex conjugate 1 - 4i . Also, p(x) has only three distinct zeroes, so one of the three known zeroes must have multiplicity 2; there is only one unknown zero, and imaginary zeroes must occur in conjugate pairs, so it follows that the zero with multiplicity 2 must be . Therefore, setting

$b_{1} = 1+ 4i$ , $b_{2} = 1- 4i$ , and $b_{3} = b_{4} = -3$ ,

the polynomial, in factored form, is

$p(x) = \left [x-(-3) \right ] \left [x-(-3) \right ] \left [x-(1+4i) \right ] \left [x-(1-4i) \right ]$

This can be rewritten as

$p(x) = (x+3) ^{2 } \left [x-1-4i \right ] \left [x-1+4i \right ]$

$p(x) = (x+3) ^{2 } \left [(x-1)-4i \right ] \left [(x-1)+4i \right ]$

$(x+3 )^{2}$ can be calculated using the binomial square pattern:

$(x+3 )^{2} = x^{2} + 2 \cdot x \cdot 3 + 3 ^{2} = x ^{2} + 6x+9$

$\left [(x-1)-4i \right ] \left [(x-1)+4i \right ]$ can be calculated by way of the difference of squares and binomial square patterns:

$\left [(x-1)-4i \right ] \left [(x-1)+4i \right ]$

$= (x-1) ^{2}-(4i ) ^{2}$

$= (x-1) ^{2}-16i ^{2}$

$= x^{2} -2x +1 +16$

$= x^{2} -2x +17$

Thus,

$p(x) = ( x ^{2} + 6x+9 ) ( x^{2} -2x +17 )$

Multiply:

$x ^{2} + 6x+9$

$\underline{x^{2} -2x +17}$

$17x ^{2} + 102x+153$

$-2 x ^{3} -12 x ^{2}-18x$

$\underline{x ^{4} + 6x^{3}+9x^{2}\textup{ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ }}$

$x ^{4} + 4x^{3}+14x^{2}+84x+153$

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Example Question #93 : Single Variable Algebra

Give the set of all real solutions of the equation

$\frac{8}{x^{2}} - \frac{2}{x} - 3 = 0$

Possible Answers:

None of these

$\left \{ -2, \frac{4}{3}\right \}$

$\left \{ - \frac{4}{3}, 2 \right \}$

$\left \{ -2, -\frac{4}{3}\right \}$

$\left \{ \frac{4}{3}, 2 \right \}$

Correct answer:

$\left \{ - \frac{4}{3}, 2 \right \}$

Explanation:

Multiply both sides of the equation by the least common denominator of the expressions, which is $LCM (x, x^{2}) = x^{2}$ :

$\frac{8}{x^{2}} - \frac{2}{x} - 3 = 0$

$\left (\frac{8}{x^{2}} - \frac{2}{x} -3 \right ) x^{2}= 0\cdot x^{2}$

$\frac{8}{x^{2}} \cdot x^{2} - \frac{2}{x}\cdot x^{2}- 3 \cdot x^{2} =0$

$8 -2x -3 x^{2} =0$

$-3 x^{2} -2x + 8 =0$

This can be solved using the method. We are looking for two integers whose sum is and whose product is (-3) 8 = -24 . Through some trial and error, the integers are found to be and 4, so the above equation can be rewritten, and solved using grouping, as

$-3 x^{2} + 4x-6 x + 8 =0$

$(- 3 x^{2} + 4x) +( -6 x + 8 )=0$

x (- 3 x + 4) + 2 ( -3 x + 4 )=0

(x + 2) ( -3 x + 4 )=0

By the Zero Product Principle, one of these factors is equal to zero:

Either:

x + 2 =0

x + 2 - 2 =0 - 2

x = -2

-3 x + 4 =0

-3 x + 4 - 4 =0 - 4

-3 x = - 4

$\frac{ -3 x}{-3} =\frac{ - 4}{-3}$

$x = \frac{4}{3}$

The solution set is the following:

$\left \{ - \frac{4}{3}, 2 \right \}$

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Example Question #94 : Single Variable Algebra

Which polynomial has x+1 as a factor?

Possible Answers:

$x^{4} + 3 x + 8x^{2} - 13 x + 1$

$x^{4} - 5x ^{3} - 18x- 7x +2$

None of these

$x^{4} - 9x ^{3} - 4x^{2}- 7x - 14$

$x^{4} -13x^{3} + 4x^{2}+x - 17$

Correct answer:

$x^{4} -13x^{3} + 4x^{2}+x - 17$

Explanation:

A polynomial is divisible by x+1 if and only if the alternating sum of its coefficients is 0- that is, if every other coefficient is reversed in sign and the sum of the resulting numbers is 0. For each polynomial, add the coefficients, reversing the signs of the $x^{3}$ and coefficients:

$x^{4} + 3 x + 8x^{2} - 13 x + 1$ :

1+ (-3 )+ 8+13 + 1 = 20

$x^{4} - 9x ^{3} - 4x^{2}- 7x - 14$ :

1+ 9 + (-4)+ 7+ (-14) = -1

$x^{4} - 5x ^{3} - 18x- 7x +2$ :

1+ 5+ (-18)+ 7+ 2 = -3

$x^{4} -13x^{3} + 4x^{2}+x - 17$ :

1+13 +4+(-1) +(-17)= 0

The alternating sum of the coefficients of this last polynomial add up to 0, so this is the correct choice.

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Example Question #85 : Solving Equations

A polynomial p(x) of degree 4 has as its lead term $x^{4}$ and has rational coefficients. One of its zeroes is 4 - i ; this zero has multiplicity two.

Which of the following is this polynomial?

Possible Answers:

$p(x)= x^{4} + 16x^{3} +30 x^{2} - 272x +289$

$p(x)= x^{4} - 16x^{3} + 94x^{2} - 240 x +225$

$p(x)= x^{4} - 16x^{3} + 98x^{2} - 272x +289$

Cannot be determined

$p(x)= x^{4} + 16x^{3} + 34x^{2} - 240 x +225$

Correct answer:

$p(x)= x^{4} - 16x^{3} + 98x^{2} - 272x +289$

Explanation:

A fourth-degree, or quartic, polynomial has four zeroes, if a zero of multiplicity is counted times. Since its lead term is $x^{4}$ , we know by the Factor Theorem that

$p(x) = (x-b_{1}) (x-b_{2}) (x-b_{3})(x-b_{4})$

where the $b_{n}$ terms are the four zeroes.

A polynomial with rational coefficients has its imaginary zeroes in conjugate pairs. Since p(x) is such a polynomial, then, since 4 - i is a zero of multiplicity 2, so is its complex conjugate 4 + i . We can set $b_{1} = b_{3} = 4-i$ and $b_{2} = b_{4} = 4+i$ , and

p(x) = [x-(4-i)] [x-(4+i)] [x-(4-i)] [x-(4+i)]

$p(x) =\left \{ [x-(4-i)] [x-(4+i)] \right \}^{2}$

We can rewrite this as

$p(x) = \left \{ [x- 4+i ][x- 4-i ] \right \} ^{2}$

$p(x) =\left \{ [(x- 4)+i ][(x- 4)-i ] \right \} ^{2}$

Multiply these factors using the difference of squares pattern, then the square of a binomial pattern:

[(x- 4)+i ][(x- 4)-i ]

$= (x- 4)^{2}-i ^{2}$

$= x ^{2} -2 \cdot 4 \cdot x+4 ^{2}-(-1 )$

$= x ^{2} -8x+16 -(-1 )$

$= x ^{2} -8x+17$

Therefore,

$p(x) =( x ^{2} -8x+17 )^{2}$

Multiplying:

$x ^{2} -8x+17$

$\underline{ x ^{2} -8x+17}$

$17x^{2} -136x +289$

$-8 x^{3} +64x ^{2} -136x$

$\underline{x^{4} -8x^{3} +17x^{2}\textup{\ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \\ \ \ \ \\ }}$

$x^{4} - 16x^{3} + 98x^{2} - 272x +289$

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Example Question #95 : Single Variable Algebra

Of the following binomials, choose the one that is a factor of the following polynomial:

$P(x) = x^{4} - 5x^{3} - 21x^{2}+ 61x - 84$ .

Possible Answers:

x-9

x- 13

x-11

x-7

x- 5

Correct answer:

x-7

Explanation:

Four of the choices can be eliminated quickly using the Rational Zeroes Theorem. By this theorem, a rational number can be a zero of a polynomial P(x) if and only if it belongs to the set of numbers that are the quotient of a factor of the constant and a factor of the leading coefficient (positive or negative). Constant 84 has as its factors 1, 2, 3, 4, 6, 7, 12, 14, 21, 28, 42, and 84, and lead coefficient 1 has only factor 1, so any rational zeroes must come from the set

$\left \{-1,- 2,- 3, -4, -6, -7, -12, -14, -21, -28, -42, -84 , 1, 2, 3, 4, 6, 7, 12, 14, 21, 28, 42, 84 \right \}$

By the Factor Theorem, a linear binomial x- c is a factor of P(x) if and only if is a zero of P(x) . 5 is not a possible zero of P(x) , since it does not appear in the above set; therefore, x- 5 can be eliminated as a possible linear factor of P(x) . x-9 , x-11 , and x- 13 can be eliminated for the same reason.

This leaves x- 7 , which can be confirmed to be a factor of P(x) by showing that 7 is a zero of P(x) - that is, P(7) = 0 . Setting x = 7 :

$P(x) = x^{4} - 5x^{3} - 21x^{2}+ 61x - 84$

$P(x) = 7^{4} - 5 \cdot 7^{3} - 21\cdot 7^{2}+ 61 \cdot 7 - 84$

$= 2,401- 5 \cdot 343 - 21\cdot 49+ 61 \cdot 7 - 84$

= 2,401- 1,715 -1,029 + 427 - 84

= 0

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Example Question #96 : Single Variable Algebra

Give the set of all real solutions of the following equation:

$\frac{8}{x^{2}+4x+4 } - \frac{2}{x+ 2 } - 3 = 0$

Possible Answers:

$\left \{ -4, - \frac{2}{3} \right \}$

No solution

$\left \{ - \frac{2}{3} \right \}$

$\left \{ 4, \frac{2}{3} \right \}$

$\left \{ \frac{2}{3} \right \}$

Correct answer:

$\left \{ -4, - \frac{2}{3} \right \}$

Explanation:

$x^{2} + 4x + 4$ can be seen to fit the perfect square trinomial pattern:

$x^{2} + 4x + 4 = x^{2} + 2 \cdot x \cdot 2 + 2 ^{2 } = (x + 2) ^{2 }$

The equation can therefore be rewritten as

$\frac{8}{ (x + 2) ^{2 }} - \frac{2}{x+ 2 } - 3 = 0$

Multiply both sides of the equation by the least common denominator of the expressions, which is $LCM (x+2 , (x+2) ^{2}) = (x+2)^{2}$ :

$\left [\frac{8}{ (x + 2) ^{2 }} - \frac{2}{x+ 2 } - 3 \right ] (x+2)^{2} = 0 \cdot (x+2)^{2}$

$\frac{8}{ (x + 2) ^{2 }}\cdot (x+2)^{2} - \frac{2}{x+ 2 }\cdot (x+2)^{2} - 3 \cdot (x+2)^{2} = 0$

$8 - 2 (x+2) - 3 \cdot (x+2)^{2} = 0$

Distributing and collecting like terms, we get

$8 - 2 (x+2) - 3 \cdot (x^{2} + 4x + 4 ) = 0$

$8 - 2 \cdot x - 2 \cdot 2 - 3 \cdot x^{2} - 3\cdot 4x - 3\cdot 4 = 0$

$8 - 2 x - 4 - 3 x^{2} -12 x - 12= 0$

$- 3 x^{2} - 2 x -12 x + 8 - 4 - 12= 0$

$- 3 x^{2} - 14 x -8= 0$

Multiplying both sides by :

$\left (- 3 x^{2} - 14 x -8 \right )(-1)= 0 (-1)$

$3 x^{2} + 14 x +8 = 0$

This can be solved using the method. We are looking for two integers whose sum is and whose product is $3 \times 8 = 24$ . Through some trial and error, the integers are found to be 2 and 12, so the above equation can be rewritten, and solved using grouping, as

$3 x^{2} + 12x + 2x +8 = 0$

$(3 x^{2} + 12x) + (2x +8 )= 0$

3x (x+4 ) + 2 (x+4 )= 0

(3x + 2 )(x+4 )= 0

By the Zero Product Principle, one of these factors is equal to zero:

Either:

3x + 2 = 0

3x + 2 - 2 = 0 - 2

3x = -2

$\frac{3x }{3}= \frac{-2}{3}$

$x = -\frac{2}{3}$

Or:

x+ 4 = 0

x+ 4 - 4= 0 - 4

x = -4

Both solutions can be confirmed by substitution; the solution set is $\left \{ -4, - \frac{2}{3} \right \}$

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Example Question #97 : Single Variable Algebra

A polynomial of degree four has as its lead term $x^{4}$ and has rational coefficients. Two of its zeroes are 2-3i and 3+ 2 i . What is this polynomial?

Possible Answers:

$x^{4} + 10x^{3} + 50x^{2} + 130x +169$

$x^{4} -13x^{3} + 26x^{2} + 65x +25$

$x^{4} - 10x^{3} + 50x^{2} - 130x +169$

$x^{4} +13x^{3} + 26x^{2} - 65x +25$

Cannot be determined

Correct answer:

$x^{4} - 10x^{3} + 50x^{2} - 130x +169$

Explanation:

A fourth-degree, or quartic, polynomial has four zeroes, if a zero of multiplicity is counted times. Since its lead term is $x^{4}$ , we know that

$p(x) = (x-b_{1}) (x-b_{2}) (x-b_{3})(x-b_{4})$

A polynomial with rational coefficients has its imaginary zeroes in conjugate pairs. Since p(x) is such a polynomial, then, since 2-3i is a zero, so is its complex conjugate 2+3i ; similarly, since 3+ 2 i is a zero, so is its complex conjugate 3- 2 i . Substituting these four values for the four $b_{n}$ values:

p(x) = [x-(2+3i)][x-(2-3i)] [x-(3+2i)] [x-(3-2i)]

This can rewritten as

p(x) =[x- 2+3i][x- 2-3i] [x- 3+2i][x- 3-2i]

p(x) =[(x- 2)+3i][(x- 2)-3i] [(x- 3)+2i][(x- 3)-2i]

Multiply the first two factors using the difference of squares pattern, then the square of a binomial pattern:

[(x- 2)+3i][(x- 2)-3i]

$= (x- 2)^{2}-(3i)^{2}$

$= (x- 2)^{2}-9i^{2}$

$= x^{2} -4x +4 +9$

$= x^{2} -4x +13$

Multiply the last two factors similarly:

[(x- 3)+2i][(x- 3)-2i]

$= (x- 3)^{2}-(2i)^{2}$

$= (x- 3)^{2}-4i^{2}$

$= x^{2} -6x+9 +4$

$= x^{2} -6x +13$

Thus,

$p(x) = ( x^{2} -4x +13) ( x^{2} -6x +13)$

Multiply:

$x^{2} -4x +13$

$\underline{ x^{2} -6x +13}$

$13x^{2} -52x +169$

$-6 x^{3} +24x^{2} -78x$

$\underline{x^{4} -4x^{3} +13x^{2}}$ ________________

$x^{4} - 10x^{3} + 50x^{2} - 130x +169$

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SAT II Math I : Single-Variable Algebra

Study concepts, example questions & explanations for SAT II Math I

All SAT II Math I Resources

Example Questions

Example Question #91 : Single Variable Algebra

Example Question #91 : Single Variable Algebra

Example Question #92 : Single Variable Algebra

Example Question #92 : Single Variable Algebra

Example Question #93 : Single Variable Algebra

Example Question #94 : Single Variable Algebra

Example Question #85 : Solving Equations

Example Question #95 : Single Variable Algebra

Example Question #96 : Single Variable Algebra

Example Question #97 : Single Variable Algebra

All SAT II Math I Resources

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