GMAT Math : Geometry

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Example Questions

Example Question #3 : Graphing A Line

The graph of the equation $y =-6x^{2}+ 11x + 10$ shares its $y\:$ -intercept and one of its -intercepts with a line of negative slope. Give the equation of that line.

Possible Answers:

y = -15x+10

y = 4x-10

y = -4x+10

y = - 4x-10

y = 15x-10

Correct answer:

y = -4x+10

Explanation:

The $y \,$ -intercept of the line coincides with that of the graph of the quadratic equation, which is a parabola; to find the $y \,$ -intercept of the parabola, substitute 0 for in the quadratic equation:

$y =-6x^{2}+ 11x + 10$

$y =-6 \cdot 0^{2}+ 11 \cdot 0+ 10$

y = 10

The $y \,$ -intercept of the parabola, and of the line, is (0,10) .

The -intercept of the line coincides with one of those of the parabola; to find the -intercepts of the parabola, substitute 0 for $y \,$ in the equation:

$y =-6x^{2}+ 11x + 10$

$-6x^{2}+ 11x + 10= 0$

$-\left (-6x^{2}+ 11x + 10 \right )=- 0$

$6x^{2}- 11x -10= 0$

Using the method, split the middle term by finding two integers whose product is 6 (-10)= -60 and whose sum is ; by trial and error we find these to be and 4, so proceed as follows:

$6x^{2}-15x+4 x -10= 0$

$(6x^{2}-15x)+(4 x -10)= 0$

3x(2x-5)+2(2x-5)= 0

(3x +2)(2x-5)= 0

Split:

3x+2 = 0

3x= -2

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

2x-5 = 0

2x= 5

$x = \frac{5}{2}$

The -intercepts of the parabola are $\left ( -\frac{2}{3}, 0 \right )$ and $\left ( \frac{5}{2}, 0 \right )$ , so the -intercept of the line is one of these. We examine both possibilities.

If (a,0) and (0,b) be the - and $y\,$ -intercepts, respectively, of the line, then the slope of the line is $-\frac{b}{a}$ , or, equivalently, $- \left ( b \div a\right )$

If the intercepts are $\left ( -\frac{2}{3}, 0 \right )$ and (0,10) , the slope is $- \left [ 10 \div \left (- \frac{2}{3} \right )\right ] = 15$ ; if the intercepts are $\left ( \frac{5}{2}, 0 \right )$ and (0,10) , the slope is $- \left ( 10 \div \frac{5}{2}\right ) = -4$ . Since the line is of negative slope, we choose the line of slope ; since its $y \,$ -intercept is (0,10) , then we can substitute m = -4, b = 10 in the slope-intercept form of the line, y = mx+b , to get the correct equation, y = -4x+10 .

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Example Question #8 : Graphing A Line

Line_1

Which of the following equations can be graphed with a line parallel to the green line in the above figure?

Possible Answers:

None of the other choices gives a correct answer.

$y = \frac{3}{5}x -9$

$y = -\frac{3}{5}x + 4$

$y = \frac{5}{3}x + 8$

$y = -\frac{5}{3}x - 7$

Correct answer:

$y = -\frac{5}{3}x - 7$

Explanation:

If (a,0) and (0,b) be the - and $y\,$ -intercepts, respectively, of a line, the slope of the line is $-\frac{b}{a}$ .

The - and $y\,$ -intercepts of the line are, respectively, (3,0) and (0,5) , so a =3, b=5 , and consequently, the slope of the green line is $-\frac{5}{3}$ . A line parallel to this line must also have slope $m = -\frac{5}{3}$ .

Each of the equations of the lines is in slope-intercept form y = mx+b , where is the slope, so we need only look at the coefficients of . The only choice that has $-\frac{5}{3}$ as its -coefficient is $y = -\frac{5}{3}x - 7$ , so this is the correct choice.

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Example Question #9 : Graphing A Line

The graph of the equation $y = x^{2}+7x - 18$ shares its $y\,$ -intercept and one of its -intercepts with a line of positive slope. What is the equation of the line?

Possible Answers:

$y = \frac{1}{9}x - 18$

y = 9x + 18

y = 2x - 18

y = 2x+18

y = 9x - 18

Correct answer:

y = 9x - 18

Explanation:

$y = x^{2}+7x - 18$

$y = 0^{2}+7 \cdot 0 - 18$

y = - 18

The $y \,$ -intercept of the parabola, and of the line, is (0,-18) .

The -intercept of the line coincides with one of those of the parabola; to find the -intercepts of the parabola, substitute 0 for $y \,$ in the equation:

$y = x^{2}+7x - 18$

$x^{2}+7x - 18 = 0$

The quadratic expression can be "reverse-FOILed" by noting that 9 and have product and sum 7:

(x+9)(x-2)= 0

x+9 = 0 , in which case x= -9

x-2 = 0 , in which case x = 2 .

The -intercepts of the parabola are (-9,0) and (2,0) , so the -intercept of the line is one of these. We will examine both possibilities

If (a,0) and (0,b) be the - and $y\,$ -intercepts, respectively, of the line, then the slope of the line is $-\frac{b}{a}$ . If the intercepts are (2,0) and (0,-18) , the slope is $-\frac{-18}{2}= 9$ ; if the intercepts are (-9,0) and (0,-18) , the slope is $-\frac{-18}{-9}= -2$ . Since the line is of positive slope, we choose the line of slope 9; since its $y \,$ -intercept is (0,-18) , then we can substitute m = 9, b = -18 in the slope-intercept form of the line, y = mx+b , to get the correct equation, y = 9x - 18 .

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Example Question #10 : Graphing A Line

Which of these equations is represented by a line that does not intersect the graph of the equation $y = 2x^{2} - 7x+5$ ?

Possible Answers:

x-y = 4

x-y = 2

None of the other choices gives a correct answer.

x+y = 4

x+y = 2

Correct answer:

x-y = 4

Explanation:

We can find out whether the graphs of x+y = 2 and $y = 2x^{2} - 7x+5$ intersect by first solving for $y \;$ in the first equation:

x+y = 2

y = 2 -x

We then substitute in the second equation for $y \;$ :

$2x^{2} - 7x+5 = 2-x$

Then we rewrite in standard form:

$2x^{2} - 7x+5 -2 + x = 2-x -2 + x$

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

Since we are only trying to pdetermine whether at least one point of intersection exists, rather than actually find the point, all we need to do is to evaluate the discriminant; if it is nonnegative, at least one solution - and, consequently, one point of intersection - exists. In the general quadratic equation $ax^{2} +bx+c = 0$ , this is $b^{2} - 4ac$ , so here, the discriminant is

$b^{2} - 4ac = (-6)^{2}- 4(2)(3) = 36-24 = 12\ge 0$ .

Therefore, the line of the equation x+y = 2 intersects the parabola of the equation $y = 2x^{2} - 7x+5$ .

We do the same for the other three lines:

x+y = 4

y = 4-x

$2x^{2} - 7x+5 = 4-x$

Then we rewrite in standard form:

$2x^{2} - 7x+5 -4+ x = 4-x -4 + x$

$2x^{2} - 6x+1 = 0$

$b^{2} - 4ac = (-6)^{2}- 4(2)(1) = 36-8= 28\ge 0$ .

The line of x+y = 4 intersects the parabola.

x-y = 2

x = y + 2

y = x-2

$2x^{2} - 7x+5 = x-2$

$2x^{2} - 7x+5- x+2 = x-2 - x+2$

$2x^{2} - 8x+7 =0$

$b^{2} - 4ac = (-8)^{2}- 4(2)(7) = 64-56= 8\ge 0$

The line of x-y = 2 intersects the parabola.

x-y = 4

x = y + 4

y = x-4

$2x^{2} - 7x+5 = x-4$

$2x^{2} - 7x+5- x+4 = x-4 - x+4$

$2x^{2} - 8x+9 =0$

$b^{2} - 4ac = (-8)^{2}- 4(2)(9) = 64-72= -8 < 0$

Since the discriminant is negative, the system has no real solution. This means that the line of x-y = 4 does not intersect the parabola of the equation $y = 2x^{2} - 7x+5$ , and it is the correct choice.

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Example Question #41 : Graphing

A line with positive slope passes through the vertex and an -intercept of the parabola of the equation $y = x^{2} + 12x + 20$ . What is the equation of the line?

Possible Answers:

y = 4x-10

y = 4x-2

y = 4x+8

$y = \frac{1}{4}x-8$

$y = \frac{1}{4}x+2$

Correct answer:

y = 4x+8

Explanation:

The vertex of the parabola of an equation of the form $y = ax^{2}+ bx + c$ has -coordinate $-\frac{b}{2a}$ . Here, we substitute a = 1, b = 12 , to obtain -coordinate

$-\frac{b}{2a} = -\frac{12}{2 (1)} = -6$ .

To find the $y \:$ -coordinate, substitute this for :

$y = x^{2} + 12x + 20$

$y = (-6)^{2} + 12(-6) + 20 = 36 -72 + 20 = -16$

The vertex is (-6, -16) .

To find the -intercepts of the parabola, substitute 0 for $y \,$ in the equation:

$x^{2} + 12x + 20 = 0$

(x+ 2)(x+10) = 0

Either

x+2=0 , in which case x= -2 ,

x+10 = 0 , in which case x = -10 .

The -intercepts are (-2,0) and (-10,0) .

The line includes (-6, -16) and either (-2,0) or (-10,0) , so we find the slope in each case using the slope formula.

If the line includes (-6, -16) and (-2,0) :

$m = \frac{y_{2}-y_{1}}{x_{2}-x_{1}}= \frac{0 - (-16)}{-2 - (-6)} = \frac{16}{4} = 4$ .

If the line includes (-6, -16) and (-10,0) :

$m = \frac{y_{2}-y_{1}}{x_{2}-x_{1}}= \frac{0 - (-16)}{-10 - (-6)} = \frac{16}{-4} = -4$

We choose the first case, since the line has positive slope. The line through (-6, -16) and (-2,0) has as its equation, using the point-slope form with m = 4 and point (-2,0) :

$y-y_{1} = m (x-x_{1})$

$y-0= 4\left [ (x-(-2) \right ]$

y = 4 (x+2)

y = 4x+8

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Example Question #42 : Graphing

The graph of the equation $x = y ^{2} - y - 12$ shares its -intercept and one of its $y\,$ -intercepts with a line of positive slope. What is the equation of the line?

Possible Answers:

$y = \frac{1}{4}x+4$

$y = \frac{1}{4}x-3$

$y = \frac{1}{3}x+4$

$y = \frac{1}{4}x-12$

$y = \frac{1}{3}x-12$

Correct answer:

$y = \frac{1}{3}x+4$

Explanation:

The -intercept of the line coincides with that of the graph of the quadratic equation, which is a horizontal parabola; to find the -intercept of the parabola, substitute 0 for $y\,$ in the quadratic equation:

$x = y ^{2} - y - 12$

$x =0 ^{2} - 0- 12$

x = -12

The -intercept of the parabola, and of the line, is (-12,0) .

The $y\,$ -intercept of the line coincides with one of those of the parabola; to find the $y\,$ -intercepts of the parabola, substitute 0 for in the equation:

$x = y ^{2} - y - 12$

$y ^{2} - y - 12 = 0$

(y+3) (y-4)= 0

Either

y +3= 0 , in which case y = -3 ,

y -4= 0 , in which case y = 4 .

The $y\,$ -intercepts of the parabola are (0,-3) and (0,4) , so the $y\,$ -intercept of the line is one of these. We will examine both possibilities.

If (a,0) and (0,b) be the - and $y\,$ -intercepts, respectively, of the line, then the slope of the line is $-\frac{b}{a}$ . If the intercepts of the line are (-12,0) and (0,-3) , the slope of the line is $-\frac{-3}{-12} = -\frac{1}{4}$ ; if the intercepts are (-12,0) and (0,4) , the slope is $-\frac{4}{-12} = \frac{1}{3}$ . We choose the latter, since we are looking for a line with positive slope; since its $y \,$ -intercept is (0,4) , then we can substitute $m = \frac{1}{3}, b = 4$ in the slope-intercept form of the line, y = mx+b , to get the correct equation, $y = \frac{1}{3}x+4$ .

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Example Question #1021 : Problem Solving Questions

Give the -coordinate of the point of intersection of the lines of the equations:

7x-4y = 64

4x+7y = 32

Round your answer to the nearest whole number, if applicable.

Possible Answers:

The lines of the equations do not intersect.

Correct answer:

Explanation:

The point of intersection of the two lines has as its coordinates the values of and $y\,$ that make both of the given linear equations true. Therefore, we seek to find the solution of the system of equations:

7x-4y = 64

4x+7y = 32

We need only find , so multiply both sides of the two equations by 7 and 4, respectively. Then add:

49x-28y = 448

$\underline{16x+28y = 128}$

65x =576

$x = 576 \div 65 \approx 8.9$ ,

making 9 the correct response.

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Example Question #44 : Graphing

Line_1

Which of the following equations can be graphed with a line perpendicular to the green line in the above figure, and with the same $y\,$ -intercept?

Possible Answers:

-5 x +3y = 15

3x+5y = 9

5x-3y = 15

3x-5y = -25

-3 x + 5y = 9

Correct answer:

3x-5y = -25

Explanation:

The - and $y\,$ -intercepts of the line are, respectively, (3,0) and (0,5) . If (a,0) and (0,b) are the - and $y\,$ -intercepts, respectively, of a line, the slope of the line is $-\frac{b}{a}$ . This makes the slope of the green line $-\frac{5}{3}$ .

Any line perpendicular to this line must have as its slope the opposite of the reciprocal of this, or $\frac{3}{5}$ . Since the desired line must also have $y\,$ -intercept (0,5) , then the slope-intercept form of the line is

y = mx+b

$y = \frac{3}{5}x+ 5$

which can be rewritten in standard form:

$5y =5 \left ( \frac{3}{5}x+ 5 \right )$

5y =3x+ 25

5y - 5y - 25 =3x+ 25 - 5y - 25

3x-5y = -25

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Example Question #45 : Graphing

A triangle is formed by the -axis and the graphs of the equations

2x+ 4y= 9

and

4x - 2y = 13

Give the area of the triangle.

Possible Answers:

$4 \frac{3}{8}$

$\frac {5}{16}$

$2\frac{3}{16}$

$\frac {5}{8}$

Correct answer:

$\frac {5}{16}$

Explanation:

The vertices of the triangle are the point of intersection of the graphs of the lines of the two equations, and the -intercepts of those lines.

The -intercept of the line of the equation 2x+ 4y= 9 can be found by setting y = 0 and solving for :

2x+ 4y= 9

2x+ 4 (0)= 9

2x+0 = 9

2x=9

$\frac{2x}{2}=\frac{9}{2}$

$x = 4 \frac{1}{2}$

The -intercept of the line of the equation 4x - 2y = 13 can be found the same way:

4x - 2y = 13

4x - 2 (0) = 13

4x - 0 = 13

4x= 13

$\frac {4x}{4}= \frac {13}{4}$

$x= 3 \frac {1}{4}$

The -intercepts are $\left ( 4 \frac{1}{2}, 0 \right )$ and $\left ( 3 \frac {1}{4}, 0 \right )$ ; these are two of the vertices of the triangle, and since the segment connecting them is horizontal, this will be taken as the base. The length of the base is the difference of the -coordinates:

$b = 4 \frac{1}{2} -3 \frac {1}{4} = 1\frac {1}{4}$

The intersection of the lines of the equations 2x+ 4y= 9 and 4x - 2y = 13 can be found by solving the system of linear equations, as follows:

4x - 2y = 13

$2 \cdot (4x - 2y )= 2 \cdot 13$

8x - 4y = 2 6

$\underline{2x+ 4y= 9}$

10x = 35

$\frac{10x}{10} = \frac{35}{10}$

$x = \frac{7}{2} = 3\frac{1}{2}$

$2 \cdot \frac{7}{2}+ 4y= 9$

7+ 4y= 9

7+ 4y- 7 = 9 - 7

4y = 2

$\frac{4y}{4} = \frac{2}{4}$

$y = \frac{1}{2}$

The point of intersection, and the third vertex of the triangle, is $\left ( 3\frac{1}{2}, \frac{1}{2} \right )$ .

Since we are taking the horiztonal segment to be the base, the height will be the vertical distance to this third point - namely, the -coordinate $\frac{1}{2}$ . The area is half the product of the base and the height:

$A = \frac{1}{2} bh$

$=\frac{1}{2} \cdot 1 \frac {1}{4} \cdot \frac{1}{2}$

$=\frac{1}{2} \cdot \frac {5}{4} \cdot \frac{1}{2}$

$= \frac {5}{16}$

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Example Question #1022 : Problem Solving Questions

Which response comes closest to the area of the triangle on the rectangular coordinate plane whose sides are along the axes and the line of the equation 4x+ 7y = 50 ?

Possible Answers:

Correct answer:

Explanation:

The intercepts of the line of the equation 4x+ 7y = 50 can be found by substituting 0 for each variable, in turn:

-intercept:

4x+ 7y = 50

4x+ 7 (0) = 50

4x+ 0= 50

4x = 50

$\frac{4x }{4}= \frac{50}{4}$

$x = \frac{25}{2}$

The -intercept is the point $\left ( \frac{25}{2}, 0 \right )$

-intercept:

4x+ 7y = 50

4 (0)+ 7y = 50

0+ 7y = 50

7y = 50

$\frac{7y }{7}= \frac{50}{7}$

$y= \frac{50}{7}$

The -intercept is the point $\left ( \frac{50}{7} , 0 \right )$ .

This line and the axes together form a right triangle. The horizontal leg is the segment connecting the origin to $\left ( \frac{25}{2}, 0 \right )$ , and its length is $\frac{25}{2}$ . The vertical leg is the segment connecting the origin to $\left ( \frac{50}{7} , 0 \right )$ , and its length is $\frac{50}{7}$ . The area of a right triangle is half the product of these legs, which is

$A = \frac{1}{2} \cdot \frac{50}{7} \cdot \frac{25}{2} = \frac{1,250}{28} = \frac{625}{14}= 44 \frac{9}{14}$ .

Of the five responses, 45 comes closest to the correct area.

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GMAT Math : Geometry

Study concepts, example questions & explanations for GMAT Math

All GMAT Math Resources

Example Questions

Example Question #3 : Graphing A Line

Example Question #8 : Graphing A Line

Example Question #9 : Graphing A Line

Example Question #10 : Graphing A Line

Example Question #41 : Graphing

Example Question #42 : Graphing

Example Question #1021 : Problem Solving Questions

Example Question #44 : Graphing

Example Question #45 : Graphing

Example Question #1022 : Problem Solving Questions

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