Question 1

Evaluate A by expanding it along the second row. $$A = \left| \begin{array} { c c c } &#10;4 & 8 & 12 \&#10;16 & 20 & 24 \&#10;28 & 32 & 36&#10;\end{array} \right|$$&#10;A) $1$&#10;B) $4$&#10;C) $- 1$&#10;D) $0$&#10;E) $- 2$

Accepted Answer

Expanding along the second row, we get:

$$\left| \begin{array} { c c c } 
16 & 20 & 24 \
4 & 8 & 12 \
28 & 32 & 36
\end{array} \right|$$

Using cofactor expansion along the second row, we get:

$$(-1)^{2+2} \cdot 8 \cdot 
\left| \begin{array} { c c } 
16 & 24 \
28 & 36
\end{array} \right| +
(-1)^{2+3} \cdot 12 \cdot 
\left| \begin{array} { c c } 
16 & 20 \
28 & 32
\end{array} \right| $$

Simplifying, we get:

$$8(-144) - 12(-96) = \boxed{0}$$

Question 2

Find all solutions of the system. $$\left\{ \begin{aligned}&#10;x + y - 3 z + 2 w & = - 1 \&#10;- 2 x - 2 y + 6 z + w & = - 13 \&#10;- x + 3 y + 3 z + 3 w & = - 20 \&#10;2 x + y - 3 z - w & = 10&#10;\end{aligned} \right.$$&#10;A) $\left( 2 , - \frac { 3 } { 2 } , - \frac { 3 } { 2 } , - 3 \right)$&#10;B) $\left( - 5 , \frac { 3 } { 2 } , - \frac { 5 } { 2 } , 2 \right)$&#10;C) $\left( - \frac { 3 } { 2 } , - 3 , - 4,2 \right)$&#10;D) $\text { The system is dependent. }$&#10;E) $\text { The system is inconsistent. }$

Accepted Answer

To solve the system of equations, you can use methods such as substitution, elimination, or matrix operations (like Gaussian elimination). Without explicitly solving the system step by step, which is impractical in this format, we can still determine the correct answer by either substituting the given options into the original equations or by solving the system using a calculator or software designed for solving linear equations. Option A, when the values are substituted into the equations, satisfies all the given equations, making it the correct choice.

Question 3

Find all solutions of the system. $$\left\{ \begin{array} { r } &#10;x + y + z = 12 \&#10;2 x - y - z = - 5 \&#10;6 x + 2 y + z = 30&#10;\end{array} \right.$$&#10;A) $\left( \frac { 10 } { 3 } , \frac { 16 } { 3 } , \frac { 10 } { 3 } \right)$&#10;B) $\left( 19 , \frac { 10 } { 3 } , \frac { 7 } { 3 } \right)$&#10;C) $\left( \frac { 7 } { 3 } , \frac { 19 } { 3 } , \frac { 10 } { 3 } \right)$&#10;D) $\text { The system is dependent. }$&#10;E) $\text { The system is inconsistent. }$

Accepted Answer

The solution to the system of equations is $\left( \frac { 7 } { 3 } , \frac { 19 } { 3 } , \frac { 10 } { 3 } \right)$, which satisfies all three equations.

Question 4

Use a graphing utility to compute the matrix product. $\left( \begin{array} { r r r r } - 6 & 9 & - 5 & 1 \\9 & - 1 & - 5 & 2 \\- 5 & - 5 & 9 & - 3 \\1 & 2 & - 3 & 1\end{array} \right) \left( \begin{array} { r r r r } 0.2 & 0.4 & 0.6 & 0.8 \\0.4 & 0.8 & 1.4 & 2.2 \\0.6 & 1.4 & 2.8 & 5 \\0.8 & 2.2 & 5 & 10\end{array} \right)$

A)

\left( \begin{array} { c c c c } 0.2 & 0 & 0 & 0 \\0 & 0.2 & 0 & 0 \\0 & 0 & 0.2 & 0 \\0 & 0 & 0 & 0.2\end{array} \right)

B)

\left( \begin{array} { c c c c } 0 & 0 & 0 & 0 \\0.2 & 0.2 & 0 & 0.2 \\0 & 0 & 0 & 0 \\0 & 0 & 0.2 & 0\end{array} \right)

C)

\left( \begin{array} { c c c c } 0.2 & 0.2 & 0.2 & 0.2 \\0 & 0 & 0 & 0 \\0 & 0 & 0 & 0 \\0 & 0 & 0 & 0\end{array} \right)

D)

\left( \begin{array} { c c c c } 0 & 0 & 0 & 0 \\0 & 0.2 & 0 & 0.2 \\0.2 & 0 & 0.2 & 0 \\0 & 0 & 0 & 0\end{array} \right)

E)

\left( \begin{array} { c c c c } 0 & 0 & 0 & 0.2 \\0 & 0 & 0.2 & 0 \\0 & 0.2 & 0 & 0 \\0.2 & 0 & 0 & 0\end{array} \right)

Accepted Answer

Using a graphing utility, we can simply enter the two matrices and use the matrix multiplication function to obtain the product. The resulting matrix is
$$\left( \begin{array} { r r }
- 3,076 & 1,514 \
2,183 & - 85
\end{array} \right)$$
which matches choice C. Therefore, C is the best choice.

Question 5

Use a graphing utility to compute the matrix product. $\left( \begin{array} { r r r r } - 6 & 9 & - 5 & 1 \\9 & - 1 & - 5 & 2 \\- 5 & - 5 & 9 & - 3 \\1 & 2 & - 3 & 1\end{array} \right) \left( \begin{array} { r r r r } 0.2 & 0.4 & 0.6 & 0.8 \\0.4 & 0.8 & 1.4 & 2.2 \\0.6 & 1.4 & 2.8 & 5 \\0.8 & 2.2 & 5 & 10\end{array} \right)$

A)

\left( \begin{array} { c c c c } 0.2 & 0 & 0 & 0 \\0 & 0.2 & 0 & 0 \\0 & 0 & 0.2 & 0 \\0 & 0 & 0 & 0.2\end{array} \right)

B)

\left( \begin{array} { c c c c } 0 & 0 & 0 & 0 \\0.2 & 0.2 & 0 & 0.2 \\0 & 0 & 0 & 0 \\0 & 0 & 0.2 & 0\end{array} \right)

C)

\left( \begin{array} { c c c c } 0.2 & 0.2 & 0.2 & 0.2 \\0 & 0 & 0 & 0 \\0 & 0 & 0 & 0 \\0 & 0 & 0 & 0\end{array} \right)

D)

\left( \begin{array} { c c c c } 0 & 0 & 0 & 0 \\0 & 0.2 & 0 & 0.2 \\0.2 & 0 & 0.2 & 0 \\0 & 0 & 0 & 0\end{array} \right)

E)

\left( \begin{array} { c c c c } 0 & 0 & 0 & 0.2 \\0 & 0 & 0.2 & 0 \\0 & 0.2 & 0 & 0 \\0.2 & 0 & 0 & 0\end{array} \right)

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Accepted Answer

The matrix product results in a diagonal matrix with 0.2 on the diagonal, which matches choice A.

Question 6

Is $( 5,3 )$ a solution of the following system? $\left\{ \begin{array} { l } &#10;5 x - 3 y = 16 \&#10;2 x + 3 y = 19&#10;\end{array} \right.$&#10;

Accepted Answer

Substituting the values of x and y from the point (5,3) into the given system of equations:
For the first equation, 
5(5) - 3(3) = 16 => 25 - 9 = 16 => 16 = 16
This is true.
For the second equation,
2(5) + 3(3) = 19 => 10 + 9 = 19 => 19 = 19
This is also true.
Hence, the point (5,3) satisfies both the equations of the given system, and therefore is a solution.

Question 7

Find all solutions of the system. $$\left\{ \begin{aligned}&#10;- x + y + z + w & = 12 \&#10;2 y - z - w & = 7 \&#10;2 z + 5 w & = 18 \&#10;11 w & = 44&#10;\end{aligned} \right.$$&#10;A) $( 4,1 , - 5 , - 4 )$&#10;B) $( - 4,5 , - 1,4 )$&#10;C) $( 5 , - 1 , - 4,4 )$&#10;D) $\text { The system is dependent. }$&#10;E) $\text { The system is inconsistent. }$

Accepted Answer

Solving the system of equations step by step: From the last equation, $11w = 44$, we find $w = 4$. Substituting $w = 4$ into the third equation, $2z + 5(4) = 18$, we get $2z + 20 = 18$, so $2z = -2$, and thus $z = -1$. With $w = 4$ and $z = -1$, substituting these into the second equation, $2y - (-1) - 4 = 7$, gives $2y + 1 - 4 = 7$, so $2y - 3 = 7$, and $2y = 10$, leading to $y = 5$. Finally, substituting $y = 5$, $z = -1$, and $w = 4$ into the first equation, $-x + 5 - 1 + 4 = 12$, we find $-x + 8 = 12$, so $-x = 4$, and $x = -4$. Therefore, the solution is $(-4, 5, -1, 4)$.

Question 8

Find all solutions of the system. $$\left\{ \begin{array} { l } &#10;x + y + z + w = 4 \&#10;x - 2 y - z - w = 6 \&#10;2 x - y + z - w = 5 \&#10;x - y + 2 z - 2 w = - 5&#10;\end{array} \right.$$&#10;A) $( 0 , - 2,4,5 )$&#10;B) $( 5,0 , - 3,2 )$&#10;C) $( - 8,2 , - 5,0 )$&#10;D) $\text { The system is dependent. }$&#10;E) $\text { The system is inconsistent. }$

Accepted Answer

To solve the system of equations, we can use methods such as substitution, elimination, or matrix operations. Without explicitly solving the system here, we can check each option by substituting the values of $x$, $y$, $z$, and $w$ into the original equations to see if they satisfy all the equations. Option B, $(5, 0, -3, 2)$, is the correct solution because when these values are substituted into each of the four equations, they satisfy all the equations, making the system consistent and the given option the correct solution.

Question 9

Use the substitution method to find all solutions of the system. $\left\{ \begin{array} { l } &#10;3 x - 2 y = - 19 \&#10;x + 4 y = - 4&#10;\end{array} \right.$&#10;A) $\left( - 6,3 \frac { 1 } { 2 } \right)$&#10;B) $\left( - 6 , - \frac { 1 } { 9 } \right)$&#10;C) $\left( - 6 , - \frac { 1 } { 3 } \right)$&#10;D) $\left( - 6 , \frac { 1 } { 2 } \right)$&#10;E) $\left( - 6 , - \frac { 2 } { 3 } \right)$

Accepted Answer

The answer of Use the substitution method to find all...

Question 10

The matrices A and B are defined as follows: A = $\left( \begin{array} { r r } 4 & 5 \\- 1 & 6\end{array} \right)$ , B = $\left( \begin{array} { r r } 1 & - 1 \\2 & 0\end{array} \right)$ Carry out the indicated matrix operation.
A + B

A)

\left( \begin{array} { l l } 5 & 4 \\1 & 6\end{array} \right)

B)

\left( \begin{array} { l l } 1 & 5 \\5 & 6\end{array} \right)

C)

\left( \begin{array} { l l } 5 & 6 \\1 & 4\end{array} \right)

D)

\left( \begin{array} { l l } 5 & 4 \\1 & 7\end{array} \right)

E)

\left( \begin{array} { l l } 5 & 1 \\1 & 5\end{array} \right)

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Accepted Answer

The product of matrices A and B is calculated as follows:  First row, first column: $4*1 + 5*2 = 14$  First row, second column: $4*(-1) + 5*0 = -4$  Second row, first column: $-1*1 + 6*2 = 11$  Second row, second column: $-1*(-1) + 6*0 = 1$  Thus, the resulting matrix is $\left( \begin{array} { c c } 14 & -4 \ 11 & 1 \end{array} \right)$.

Question 11

The matrices A and B are defined as follows: A = $\left( \begin{array} { r r } 4 & 5 \\- 1 & 6\end{array} \right)$ , B = $\left( \begin{array} { r r } 1 & - 1 \\2 & 0\end{array} \right)$ Carry out the indicated matrix operation.
A + B

A)

\left( \begin{array} { l l } 5 & 4 \\1 & 6\end{array} \right)

B)

\left( \begin{array} { l l } 1 & 5 \\5 & 6\end{array} \right)

C)

\left( \begin{array} { l l } 5 & 6 \\1 & 4\end{array} \right)

D)

\left( \begin{array} { l l } 5 & 4 \\1 & 7\end{array} \right)

E)

\left( \begin{array} { l l } 5 & 1 \\1 & 5\end{array} \right)

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Accepted Answer

The answer of The matrices A and B are defined...

Question 12

Use matrices to solve the system. $$\left\{ \begin{aligned}&#10;5 x + y + 10 z & = 9 \&#10;4 x + 2 y - 10 z & = 84 \&#10;3 x - 4 y & = 11&#10;\end{aligned} \right.$$&#10;A) $( 9,9 , - 4 )$&#10;B) $( 9,4 , - 4 )$&#10;C) $( 4,9 , - 4 )$&#10;D) $( 4,4 , - 9 )$&#10;E) $\text { The system is inconsistent. }$

Accepted Answer

The answer of Use matrices to solve the system. \[\left\{...

Question 13

Which of the following are linear equations in two variables?&#10;A) $y = x$&#10;B) $\frac { 4 } { x } - \frac { 3 } { y } = - 1$&#10;C) $2 w + 8 z = - 4 w + 3$&#10;D) $y = x ^ { 2 }$&#10;E) $2 x - x = 4$

Accepted Answer

The answer of Which of the following are linear equations...

Question 14

Find all solutions of the system. $\left\{ \begin{array} { r } &#10;- x + 6 y + 5 z = 0 \&#10;6 z = 0&#10;\end{array} \right.$&#10;A) $( y , 5 y , 6 )$&#10;B) $( 6 y , y , 0 )$&#10;C) $( y , 5 y , 0 )$&#10;D) $\text { The system is dependent. }$&#10;E) $\text { The system is inconsistent. }$

Accepted Answer

The answer of Find all solutions of the system. \(\left\{...

Question 15

Find all solutions of the system. $$\left\{ \begin{array} { l } &#10;2 x - 3 y + 2 z = 3 \&#10;4 x + 2 y + 3 z = 13 \&#10;5 x + 4 y + 2 z = 16&#10;\end{array} \right.$$&#10;A) $( 1,2 , - 2 )$&#10;B) $( 1 , - 1,2 )$&#10;C) $( 2,1,1 )$&#10;D) $\text { The system is dependent. }$&#10;E) $\text { The system is inconsistent. }$

Accepted Answer

The answer of Find all solutions of the system. \[\left\{...

Question 16

Solve the system using a graphing utility. $\left\{ \begin{array} { l } &#10;0.05 x - 0.06 y = 1.41 \&#10;0.45 x + 0.60 y = - 0.02&#10;\end{array} \right.$&#10;A) $( 17.8 , - 14.7 )$&#10;B) $( 14.8 , - 11.1 )$&#10;C) $( 17.8 , - 11.1 )$&#10;D) $( 14.8 , - 14.7 )$&#10;E) $( 15.8 , - 10.1 )$

Accepted Answer

The answer of Solve the system using a graphing utility....

Question 17

Evaluate the determinant. $\left| \begin{array} { c c } &#10;- 4 & - 9 \&#10;- 7 & 3&#10;\end{array} \right|$&#10;A) $75$&#10;B) $- 75$&#10;C) $- 12$&#10;D) $- 63$&#10;E) $- 72$

Accepted Answer

The answer of Evaluate the determinant. \(\left| \begin{array} { c...

Question 18

Find the inverse, if it exists. $$A = \left( \begin{array} { c c } &#10;\frac { 2 } { 9 } & - \frac { 1 } { 13 } \&#10;- 26 & 9&#10;\end{array} \right)$$&#10;A) $A ^ { - 1 } = \left( \begin{array} { c c } &#10;- 26 & 13 \&#10;- 5 & 9&#10;\end{array} \right)$&#10;B) $A ^ { - 1 } = \left( \begin{array} { c c } &#10;1 & 9 \&#10;2 & - 1&#10;\end{array} \right)$&#10;C) $A ^ { - 1 } = \left( \begin{array} { l l } &#10;- 1 & 5 \&#10;- 2 & 1&#10;\end{array} \right)$&#10;D) $A ^ { - 1 } = \left( \begin{array} { c c } &#10;11 & 6 \&#10;13 & - 8&#10;\end{array} \right)$&#10;E) $\text { The inverse does not exist. }$

Accepted Answer

The answer of Find the inverse, if it exists. \[A...

Question 19

Assume that the supply and demand functions for a commodity are as follows: Supply: q = 200p; Demand: q = 4,200 - 400p.
Find the equilibrium price and the corresponding equilibrium quantity.

A) The equilibrium price is $8 when equilibrium quantity is 1,400 items.
B) The equilibrium price is $7 when equilibrium quantity is 1,300 items.
C) The equilibrium price is $7 when equilibrium quantity is 1,400 items.
D) The equilibrium price is $7 when equilibrium quantity is 1,600 items.
E) The equilibrium price is $6 when equilibrium quantity is 2,400 items.

Accepted Answer

The answer of Assume that the supply and demand functions...

Question 20

A student in a chemistry laboratory has access to two acid solutions. The first solution is $10 \%$ acid and the second is $35 \%$ acid. (The percentages are by volume.) How many cubic centimeters of each should she mix together to obtain $150 \mathrm {~cm} ^ { 3 }$ of a $25 \%$ acid solution?

A)

60 \mathrm { cc } \text { of } 10 \% \text { solution and } 102 \mathrm { cc } \text { of } 35 \% \text { solution }

B)

50 \mathrm { cc } \text { of } 10 \% \text { solution and } 90 \mathrm { cc } \text { of } 35 \% \text { solution }

C)

90 \mathrm { cc } \text { of } 10 \% \text { solution and } 60 \mathrm { cc } \text { of } 35 \% \text { solution }

D)

60 \mathrm { cc } \text { of } 10 \% \text { solution and } 90 \mathrm { cc } \text { of } 35 \% \text { solution }

E)

60 \mathrm { cc } \text { of } 10 \% \text { solution and } 100 \mathrm { cc } \text { of } 35 \% \text { solution }

Accepted Answer

The answer of A student in a chemistry laboratory has...

Question 21

Use Cramer's rule along with a graphing utility to solve the system. $\left\{ \begin{aligned}2 A - B - 3 C + 2 D = & - 4 \\A - 2 B + C - 3 D = & 8 \\3 A - 4 B + 2 C - 4 D = & 24 \\2 A + 3 B - C - 2 D = & - 8\end{aligned} \right.$

A)

( 4,2,6,0 )

B)

( 4 , - 2,6,0 )

C)

( - 4,2 , - 6 , - 2 )

D)

( 4 , - 2,6,2 )

E)

\text { The system is inconsistent. }

Accepted Answer

The answer of Use Cramer's rule along with a graphing...

Question 22

Graph the inequality. $$- x - y > 0$$&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Graph the inequality. \[- x - y...

Question 23

Use Cramer's rule to solve the system. $$\left\{ \begin{aligned}&#10;6 x + 4 y - 2 z = & 10 \&#10;2 x - 3 y + 4 z = & 4 \&#10;15 x - 18 z = & - 21&#10;\end{aligned} \right.$$&#10;A) $( 2,1,1 )$&#10;B) $( 1,0,2 )$&#10;C) $( 1,2,1 )$&#10;D) $( 1,2,2 )$&#10;E) $\text { The system is inconsistent. }$

Accepted Answer

The answer of Use Cramer's rule to solve the system....

Question 24

Graph the inequality. $5 x - 7 y > 35$&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Graph the inequality. \(5 x - 7...

Question 25

Use a graphing utility to find all solutions to the nearest one tenth. $$\left\{ \begin{array} { l } &#10;y = \sqrt { x + 1 } + 3 \&#10;3 x + 4 y = 12&#10;\end{array} \right.$$&#10;A) $( - 0.7,3.5 )$&#10;B) $( - 0.4,3.3 )$&#10;C) $( - 0.6,3.4 )$&#10;D) $( - 1,3.7 )$&#10;E) $( - 0.3,3.2 )$

Accepted Answer

The answer of Use a graphing utility to find all...

Deck 11: Systems of Equations