11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (2024)

Learning Objectives

By the end of this section, you will be able to:
  • Use the Distance Formula
  • Use the Midpoint Formula
  • Write the equation of a circle in standard form
  • Graph a circle

Be Prepared 11.1

Before you get started, take this readiness quiz.

  1. Find the length of the hypotenuse of a right triangle whose legs are 12 and 16 inches.
    If you missed this problem, review Example 2.34.
  2. Factor: x218x+81.x218x+81.
    If you missed this problem, review Example 6.24.
  3. Solve by completing the square: x212x12=0.x212x12=0.
    If you missed this problem, review Example 9.22.

In this chapter we will be looking at the conic sections, usually called the conics, and their properties. The conics are curves that result from a plane intersecting a double cone—two cones placed point-to-point. Each half of a double cone is called a nappe.

11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (1)

There are four conics—the circle, parabola, ellipse, and hyperbola. The next figure shows how the plane intersecting the double cone results in each curve.

11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (2)

Each of the curves has many applications that affect your daily life, from your cell phone to acoustics and navigation systems. In this section we will look at the properties of a circle.

Use the Distance Formula

We have used the Pythagorean Theorem to find the lengths of the sides of a right triangle. Here we will use this theorem again to find distances on the rectangular coordinate system. By finding distance on the rectangular coordinate system, we can make a connection between the geometry of a conic and algebra—which opens up a world of opportunities for application.

Our first step is to develop a formula to find distances between points on the rectangular coordinate system. We will plot the points and create a right triangle much as we did when we found slope in Graphs and Functions. We then take it one step further and use the Pythagorean Theorem to find the length of the hypotenuse of the triangle—which is the distance between the points.

Example 11.1

Use the rectangular coordinate system to find the distance between the points (6,4)(6,4) and (2,1).(2,1).

Solution

Plot the two points. Connect the two points
with a line.
Draw a right triangle as if you were going to
find slope.
11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (3)
Find the length of each leg.11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (4)
Use the Pythagorean Theorem to find d, the
distance between the two points.
a2+b2=c2a2+b2=c2
Substitute in the values.32+42=d232+42=d2
Simplify.9+16=d29+16=d2
25=d225=d2
Use the Square Root Property.d=5d=−5d=5d=−5
Since distance, d is positive, we can eliminate
d=−5.d=−5.
The distance between the points (6,4)(6,4) and
(2,1)(2,1) is 5.

Try It 11.1

Use the rectangular coordinate system to find the distance between the points (6,1)(6,1) and (2,−2).(2,−2).

Try It 11.2

Use the rectangular coordinate system to find the distance between the points (5,3)(5,3) and (−3,−3).(−3,−3).

11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (5)

The method we used in the last example leads us to the formula to find the distance between the two points (x1,y1)(x1,y1) and (x2,y2).(x2,y2).

When we found the length of the horizontal leg we subtracted 6262 which is x2x1.x2x1.

When we found the length of the vertical leg we subtracted 4141 which is y2y1.y2y1.

If the triangle had been in a different position, we may have subtracted x1x2x1x2 or y1y2.y1y2. The expressions x2x1x2x1 and x1x2x1x2 vary only in the sign of the resulting number. To get the positive value-since distance is positive- we can use absolute value. So to generalize we will say |x2x1||x2x1| and |y2y1|.|y2y1|.

In the Pythagorean Theorem, we substitute the general expressions |x2x1||x2x1| and |y2y1||y2y1| rather than the numbers.

a2+b2=c2Substitute in the values.(|x2x1|)2+(|y2y1|)2=d2Squaring the expressions makes thempositive, so we eliminate the absolute valuebars.(x2x1)2+(y2y1)2=d2Use the Square Root Property.d=±(x2x1)2+(y2y1)2Distance is positive, so eliminate the negativevalue.d=(x2x1)2+(y2y1)2a2+b2=c2Substitute in the values.(|x2x1|)2+(|y2y1|)2=d2Squaring the expressions makes thempositive, so we eliminate the absolute valuebars.(x2x1)2+(y2y1)2=d2Use the Square Root Property.d=±(x2x1)2+(y2y1)2Distance is positive, so eliminate the negativevalue.d=(x2x1)2+(y2y1)2

This is the Distance Formula we use to find the distance d between the two points (x1,y1)(x1,y1) and (x2,y2).(x2,y2).

Distance Formula

The distance d between the two points (x1,y1)(x1,y1) and (x2,y2)(x2,y2) is

d=(x2x1)2+(y2y1)2d=(x2x1)2+(y2y1)2

Example 11.2

Use the Distance Formula to find the distance between the points (−5,−3)(−5,−3) and (7,2).(7,2).

Solution

Write the Distance Formula.d=(x2x1)2+(y2y1)2Label the points,(−5,−3x1,y1),(7,2x2,y2)and substitute.d=(7(−5))2+(2(−3))2Simplify.d=122+52d=144+25d=169d=13 Write the Distance Formula.d=(x2x1)2+(y2y1)2Label the points,(−5,−3x1,y1),(7,2x2,y2)and substitute.d=(7(−5))2+(2(−3))2Simplify.d=122+52d=144+25d=169d=13

Try It 11.3

Use the Distance Formula to find the distance between the points (−4,−5)(−4,−5) and (5,7).(5,7).

Try It 11.4

Use the Distance Formula to find the distance between the points (−2,−5)(−2,−5) and (−14,−10).(−14,−10).

Example 11.3

Use the Distance Formula to find the distance between the points (10,−4)(10,−4) and (−1,5).(−1,5). Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed.

Solution

Write the Distance Formula.d=(x2x1)2+(y2y1)2Label the points,(10,−4x1,y1),(−1,5x2,y2)and substitute.d=(−110)2+(5(−4))2Simplify.d=(−11)2+92d=121+81d=202Since 202 is not a perfect square, we can leavethe answer in exact form or find a decimalapproximation.d=202ord14.2 Write the Distance Formula.d=(x2x1)2+(y2y1)2Label the points,(10,−4x1,y1),(−1,5x2,y2)and substitute.d=(−110)2+(5(−4))2Simplify.d=(−11)2+92d=121+81d=202Since 202 is not a perfect square, we can leavethe answer in exact form or find a decimalapproximation.d=202ord14.2

Try It 11.5

Use the Distance Formula to find the distance between the points (−4,−5)(−4,−5) and (3,4).(3,4). Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed.

Try It 11.6

Use the Distance Formula to find the distance between the points (−2,−5)(−2,−5) and (−3,−4).(−3,−4). Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed.

Use the Midpoint Formula

It is often useful to be able to find the midpoint of a segment. For example, if you have the endpoints of the diameter of a circle, you may want to find the center of the circle which is the midpoint of the diameter. To find the midpoint of a line segment, we find the average of the x-coordinates and the average of the y-coordinates of the endpoints.

Midpoint Formula

The midpoint of the line segment whose endpoints are the two points (x1,y1)(x1,y1) and (x2,y2)(x2,y2) is

(x1+x22,y1+y22)(x1+x22,y1+y22)

To find the midpoint of a line segment, we find the average of the x-coordinates and the average of the y-coordinates of the endpoints.

Example 11.4

Use the Midpoint Formula to find the midpoint of the line segments whose endpoints are (−5,−4)(−5,−4) and (7,2).(7,2). Plot the endpoints and the midpoint on a rectangular coordinate system.

Solution

Write the Midpoint Formula.(x1+x22,y1+y22)(x1+x22,y1+y22)
Label the points, (−5,−4x1,y1),(7,2x2,y2)(−5,−4x1,y1),(7,2x2,y2)
and substitute.
(−5+72,−4+22)(−5+72,−4+22)
Simplify.(22,−22)(22,−22)
(1,−1)(1,−1)
The midpoint of the segment is the point
(1,−1).(1,−1).
Plot the endpoints and midpoint.11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (6)

Try It 11.7

Use the Midpoint Formula to find the midpoint of the line segments whose endpoints are (−3,−5)(−3,−5) and (5,7).(5,7). Plot the endpoints and the midpoint on a rectangular coordinate system.

Try It 11.8

Use the Midpoint Formula to find the midpoint of the line segments whose endpoints are (−2,−5)(−2,−5) and (6,−1).(6,−1). Plot the endpoints and the midpoint on a rectangular coordinate system.

Both the Distance Formula and the Midpoint Formula depend on two points, (x1,y1)(x1,y1) and (x2,y2).(x2,y2). It is easy to confuse which formula requires addition and which subtraction of the coordinates. If we remember where the formulas come from, is may be easier to remember the formulas.

11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (7)

Write the Equation of a Circle in Standard Form

As we mentioned, our goal is to connect the geometry of a conic with algebra. By using the coordinate plane, we are able to do this easily.

11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (8)

We define a circle as all points in a plane that are a fixed distance from a given point in the plane. The given point is called the center, (h,k),(h,k), and the fixed distance is called the radius, r, of the circle.

Circle

A circle is all points in a plane that are a fixed distance from a given point in the plane. The given point is called the center, (h,k),(h,k), and the fixed distance is called the radius, r, of the circle.

We look at a circle in the rectangular coordinate system.
The radius is the distance from the center, (h,k),(h,k), to a
point on the circle, (x,y).(x,y).
11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (9)
To derive the equation of a circle, we can use the
distance formula with the points (h,k),(h,k), (x,y)(x,y) and the
distance, r.
d=(x2x1)2+(y2y1)2d=(x2x1)2+(y2y1)2
Substitute the values.r=(xh)2+(yk)2r=(xh)2+(yk)2
Square both sides.r2=(xh)2+(yk)2r2=(xh)2+(yk)2

This is the standard form of the equation of a circle with center, (h,k),(h,k), and radius, r.

Standard Form of the Equation a Circle

The standard form of the equation of a circle with center, (h,k),(h,k), and radius, r, is

11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (10)

Example 11.5

Write the standard form of the equation of the circle with radius 3 and center (0,0).(0,0).

Solution

Use the standard form of the equation of a circle(xh)2+(yk)2=r2(xh)2+(yk)2=r2
Substitute in the values r=3,h=0,r=3,h=0, and k=0.k=0.(x0)2+(y0)2=32(x0)2+(y0)2=32
11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (11)
Simplify.x2+y2=9x2+y2=9

Try It 11.10

Write the standard form of the equation of the circle with a radius of 8 and center (0,0).(0,0).

In the last example, the center was (0,0).(0,0). Notice what happened to the equation. Whenever the center is (0,0),(0,0), the standard form becomes x2+y2=r2.x2+y2=r2.

Example 11.6

Write the standard form of the equation of the circle with radius 2 and center (−1,3).(−1,3).

Solution

Use the standard form of the equation of a
circle.
(xh)2+(yk)2=r2(xh)2+(yk)2=r2
Substitute in the values.(x(−1))2+(y3)2=22(x(−1))2+(y3)2=22
11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (12)
Simplify.(x+1)2+(y3)2=4(x+1)2+(y3)2=4

Try It 11.11

Write the standard form of the equation of the circle with a radius of 7 and center (2,−4).(2,−4).

Try It 11.12

Write the standard form of the equation of the circle with a radius of 9 and center (−3,−5).(−3,−5).

In the next example, the radius is not given. To calculate the radius, we use the Distance Formula with the two given points.

Example 11.7

Write the standard form of the equation of the circle with center (2,4)(2,4) that also contains the point (−2,1).(−2,1).

11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (13)

Solution

The radius is the distance from the center to any point on the circle so we can use the distance formula to calculate it. We will use the center (2,4)(2,4) and point (−2,1)(−2,1)

Use the Distance Formula to find the radius.r=(x2x1)2+(y2y1)2Substitute the values.(2,4x1,y1),(−2,1x2,y2)r=(−22)2+(14)2Simplify.r=(−4)2+(−3)2r=16+9r=25r=5 Use the Distance Formula to find the radius.r=(x2x1)2+(y2y1)2Substitute the values.(2,4x1,y1),(−2,1x2,y2)r=(−22)2+(14)2Simplify.r=(−4)2+(−3)2r=16+9r=25r=5

Now that we know the radius, r=5,r=5, and the center, (2,4),(2,4), we can use the standard form of the equation of a circle to find the equation.

Use the standard form of the equation of a circle.(xh)2+(yk)2=r2Substitute in the values.(x2)2+(y4)2=52Simplify.(x2)2+(y4)2=25 Use the standard form of the equation of a circle.(xh)2+(yk)2=r2Substitute in the values.(x2)2+(y4)2=52Simplify.(x2)2+(y4)2=25

Try It 11.13

Write the standard form of the equation of the circle with center (2,1)(2,1) that also contains the point (−2,−2).(−2,−2).

Try It 11.14

Write the standard form of the equation of the circle with center (7,1)(7,1) that also contains the point (−1,−5).(−1,−5).

Graph a Circle

Any equation of the form (xh)2+(yk)2=r2(xh)2+(yk)2=r2 is the standard form of the equation of a circle with center, (h,k),(h,k), and radius, r. We can then graph the circle on a rectangular coordinate system.

Note that the standard form calls for subtraction from x and y. In the next example, the equation has x+2,x+2, so we need to rewrite the addition as subtraction of a negative.

Example 11.8

Find the center and radius, then graph the circle: (x+2)2+(y1)2=9.(x+2)2+(y1)2=9.

Solution

11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (14)
Use the standard form of the equation of a circle.
Identify the center, (h,k)(h,k) and radius, r.
11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (15)
Center: (−2,1)(−2,1) radius: 3
Graph the circle.11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (16)

Try It 11.15

Find the center and radius, then graph the circle: (x3)2+(y+4)2=4.(x3)2+(y+4)2=4.

Try It 11.16

Find the center and radius, then graph the circle: (x3)2+(y1)2=16.(x3)2+(y1)2=16.

To find the center and radius, we must write the equation in standard form. In the next example, we must first get the coefficient of x2,y2x2,y2 to be one.

Example 11.9

Find the center and radius and then graph the circle, 4x2+4y2=64.4x2+4y2=64.

Solution

11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (17)
Divide each side by 4.11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (18)
Use the standard form of the equation of a circle.
Identify the center, (h,k)(h,k) and radius, r.
11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (19)
Center: (0,0)(0,0) radius: 4
Graph the circle.11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (20)

Try It 11.17

Find the center and radius, then graph the circle: 3x2+3y2=273x2+3y2=27

Try It 11.18

Find the center and radius, then graph the circle: 5x2+5y2=1255x2+5y2=125

If we expand the equation from Example 11.8, (x+2)2+(y1)2=9,(x+2)2+(y1)2=9, the equation of the circle looks very different.

(x+2)2+(y1)2=9Square the binomials.x2+4x+4+y22y+1=9Arrange the terms in descending degree order,and get zero on the rightx2+y2+4x2y4=0(x+2)2+(y1)2=9Square the binomials.x2+4x+4+y22y+1=9Arrange the terms in descending degree order,and get zero on the rightx2+y2+4x2y4=0

This form of the equation is called the general form of the equation of the circle.

General Form of the Equation of a Circle

The general form of the equation of a circle is

x2+y2+ax+by+c=0x2+y2+ax+by+c=0

If we are given an equation in general form, we can change it to standard form by completing the squares in both x and y. Then we can graph the circle using its center and radius.

Example 11.10

Find the center and radius, then graph the circle: x2+y24x6y+4=0.x2+y24x6y+4=0.

Solution

We need to rewrite this general form into standard form in order to find the center and radius.

11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (21)
Group the x-terms and y-terms.
Collect the constants on the right side.
11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (22)
Complete the squares.11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (23)
Rewrite as binomial squares.11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (24)
Identify the center and radius.Center: (2,3)(2,3) radius: 3
Graph the circle.11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (25)

Try It 11.19

Find the center and radius, then graph the circle: x2+y26x8y+9=0.x2+y26x8y+9=0.

Try It 11.20

Find the center and radius, then graph the circle: x2+y2+6x2y+1=0.x2+y2+6x2y+1=0.

In the next example, there is a y-term and a y2y2-term. But notice that there is no x-term, only an x2x2-term. We have seen this before and know that it means h is 0. We will need to complete the square for the y terms, but not for the x terms.

Example 11.11

Find the center and radius, then graph the circle: x2+y2+8y=0.x2+y2+8y=0.

Solution

We need to rewrite this general form into standard form in order to find the center and radius.

11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (26)
Group the x-terms and y-terms.11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (27)
There are no constants to collect on the
right side.
Complete the square for y2+8y.y2+8y.11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (28)
Rewrite as binomial squares.11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (29)
Identify the center and radius.Center: (0,−4)(0,−4) radius: 4
Graph the circle.11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (30)

Try It 11.21

Find the center and radius, then graph the circle: x2+y22x3=0.x2+y22x3=0.

Try It 11.22

Find the center and radius, then graph the circle: x2+y212y+11=0.x2+y212y+11=0.

Media

Access these online resources for additional instructions and practice with using the distance and midpoint formulas, and graphing circles.

  • Distance-Midpoint Formulas and Circles
  • Finding the Distance and Midpoint Between Two Points
  • Completing the Square to Write Equation in Standard Form of a Circle

Section 11.1 Exercises

Practice Makes Perfect

Use the Distance Formula

In the following exercises, find the distance between the points. Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed.

1.

(2,0)(2,0) and (5,4)(5,4)

2.

(−4,−3)(−4,−3) and (2,5)(2,5)

3.

(−4,−3)(−4,−3) and (8,2)(8,2)

4.

(−7,−3)(−7,−3) and (8,5)(8,5)

5.

(−1,4)(−1,4) and (2,0)(2,0)

6.

(−1,3)(−1,3) and (5,−5)(5,−5)

7.

(1,−4)(1,−4) and (6,8)(6,8)

8.

(−8,−2)(−8,−2) and (7,6)(7,6)

9.

(−3,−5)(−3,−5) and (0,1)(0,1)

10.

(−1,−2)(−1,−2) and (−3,4)(−3,4)

11.

(3,−1)(3,−1) and (1,7)(1,7)

12.

(−4,−5)(−4,−5) and (7,4)(7,4)

Use the Midpoint Formula

In the following exercises, find the midpoint of the line segments whose endpoints are given and plot the endpoints and the midpoint on a rectangular coordinate system.

13.

(0,−5)(0,−5) and (4,−3)(4,−3)

14.

(−2,−6)(−2,−6) and (6,−2)(6,−2)

15.

(3,−1)(3,−1) and (4,−2)(4,−2)

16.

(−3,−3)(−3,−3) and (6,−1)(6,−1)

Write the Equation of a Circle in Standard Form

In the following exercises, write the standard form of the equation of the circle with the given radius and center (0,0).(0,0).

17.

Radius: 7

18.

Radius: 9

19.

Radius: 22

20.

Radius: 55

In the following exercises, write the standard form of the equation of the circle with the given radius and center

21.

Radius: 1, center: (3,5)(3,5)

22.

Radius: 10, center: (−2,6)(−2,6)

23.

Radius: 2.5,2.5, center: (1.5,−3.5)(1.5,−3.5)

24.

Radius: 1.5,1.5, center: (−5.5,−6.5)(−5.5,−6.5)

For the following exercises, write the standard form of the equation of the circle with the given center with point on the circle.

25.

Center (3,−2)(3,−2) with point (3,6)(3,6)

26.

Center (6,−6)(6,−6) with point (2,−3)(2,−3)

27.

Center (4,4)(4,4) with point (2,2)(2,2)

28.

Center (−5,6)(−5,6) with point (−2,3)(−2,3)

Graph a Circle

In the following exercises, find the center and radius, then graph each circle.

29.

( x + 5 ) 2 + ( y + 3 ) 2 = 1 ( x + 5 ) 2 + ( y + 3 ) 2 = 1

30.

( x 2 ) 2 + ( y 3 ) 2 = 9 ( x 2 ) 2 + ( y 3 ) 2 = 9

31.

( x 4 ) 2 + ( y + 2 ) 2 = 16 ( x 4 ) 2 + ( y + 2 ) 2 = 16

32.

( x + 2 ) 2 + ( y 5 ) 2 = 4 ( x + 2 ) 2 + ( y 5 ) 2 = 4

33.

x 2 + ( y + 2 ) 2 = 25 x 2 + ( y + 2 ) 2 = 25

34.

( x 1 ) 2 + y 2 = 36 ( x 1 ) 2 + y 2 = 36

35.

( x 1.5 ) 2 + ( y + 2.5 ) 2 = 0.25 ( x 1.5 ) 2 + ( y + 2.5 ) 2 = 0.25

36.

( x 1 ) 2 + ( y 3 ) 2 = 9 4 ( x 1 ) 2 + ( y 3 ) 2 = 9 4

37.

x 2 + y 2 = 64 x 2 + y 2 = 64

38.

x 2 + y 2 = 49 x 2 + y 2 = 49

39.

2 x 2 + 2 y 2 = 8 2 x 2 + 2 y 2 = 8

40.

6 x 2 + 6 y 2 = 216 6 x 2 + 6 y 2 = 216

In the following exercises, identify the center and radius and graph.

41.

x 2 + y 2 + 2 x + 6 y + 9 = 0 x 2 + y 2 + 2 x + 6 y + 9 = 0

42.

x 2 + y 2 6 x 8 y = 0 x 2 + y 2 6 x 8 y = 0

43.

x 2 + y 2 4 x + 10 y 7 = 0 x 2 + y 2 4 x + 10 y 7 = 0

44.

x 2 + y 2 + 12 x 14 y + 21 = 0 x 2 + y 2 + 12 x 14 y + 21 = 0

45.

x 2 + y 2 + 6 y + 5 = 0 x 2 + y 2 + 6 y + 5 = 0

46.

x 2 + y 2 10 y = 0 x 2 + y 2 10 y = 0

47.

x 2 + y 2 + 4 x = 0 x 2 + y 2 + 4 x = 0

48.

x 2 + y 2 14 x + 13 = 0 x 2 + y 2 14 x + 13 = 0

Writing Exercises

49.

Explain the relationship between the distance formula and the equation of a circle.

50.

Is a circle a function? Explain why or why not.

51.

In your own words, state the definition of a circle.

52.

In your own words, explain the steps you would take to change the general form of the equation of a circle to the standard form.

Self Check

After completing the exercises, use this checklist to evaluate your mastery of the objectives of this section.

11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (31)

If most of your checks were:

…confidently. Congratulations! You have achieved the objectives in this section. Reflect on the study skills you used so that you can continue to use them. What did you do to become confident of your ability to do these things? Be specific.

…with some help. This must be addressed quickly because topics you do not master become potholes in your road to success. In math every topic builds upon previous work. It is important to make sure you have a strong foundation before you move on. Who can you ask for help? Your fellow classmates and instructor are good resources. Is there a place on campus where math tutors are available? Can your study skills be improved?

…no - I don’t get it! This is a warning sign and you must not ignore it. You should get help right away or you will quickly be overwhelmed. See your instructor as soon as you can to discuss your situation. Together you can come up with a plan to get you the help you need.

11.1 Distance and Midpoint Formulas; Circles - Intermediate Algebra | OpenStax (2024)

FAQs

What is the formula for the distance and midpoint? ›

Distance and Midpoint Formula

To find the distance between two points, use the distance formula: d = ( y 2 − y 1 ) 2 + ( x 2 − x 1 ) 2 , where d is the distance, is the y-coordinate of point #2, is the y-coordinate of point #1, is the x-coordinate of point #2, and is the x-coordinate of point #1.

What is the distance formula and equation of a circle? ›

A point (x,y) is at a distance r from the origin if and only if √x2+y2=r, or, if we square both sides: x2+y2=r2. This is the equation of the circle of radius r centered at the origin. The special case r=1 is called the unit circle; its equation is x2+y2=1.

What is the formula for the midpoint in algebra? ›

The midpoint formula is basically an average. You add the two x-values and divide by 2. You add the two y-values and divide by 2. This gives you the coordinates of the midpoint (the point located half-way between the original two points).

What is the correct midpoint formula? ›

How do you Calculate Midpoint? The midpoint can be found with the formula ((x1 + x2)/2, (y1 + y2)/2). Here (x1, y1), and (x2, y2) are the coordinates of two points, and the midpoint is a point lying equidistant and between these two points.

What is the formula to find distance? ›

Learn how to find the distance between two points by using the distance formula, which is an application of the Pythagorean theorem. We can rewrite the Pythagorean theorem as d=√((x_2-x_1)²+(y_2-y_1)²) to find the distance between any two points.

What is the midpoint rule for a circle? ›

Assuming you have either endpoint of the diameter of a circle, you can use the midpoint formula to find the point midway between the two points. According to the definition of a diameter, this will be the circle's center point. If you have the points (x1,y1) and (x2,y2) , the midpoint formula is (x1+x22,y1+y22) .

What is the formula for the distance between two circles? ›

The distance between the centers of the two circles is: d=√a2+b2.

What is a formula for a circle? ›

A circle is a closed curve that is drawn from the fixed point called the center, in which all the points on the curve are having the same distance from the center point of the center. The equation of a circle with (h, k) center and r radius is given by: (x-h)2 + (y-k)2 = r2. This is the standard form of the equation.

How to find midpoint? ›

The midpoint formula is just an average. Add the 2 X-values, then divide by 2. Add the 2 Y-values, then divide by 2. You have then found the average for the X and Y values which gives you the point half way between the original 2 points.

What is the formula for distance in circular motion? ›

after each revolution of the object , the object will be back at its original position so the displacement will be equal to zero and the distance will be equal to perimeter of circle ( 2 x 3.14 x R)

What is the rule of midpoint formula? ›

The midpoint of a rectangle can be calculated by adding together the x-value of the rectangle's left limit with the x-value of the rectangle's right limit and dividing the sum by two.

What is the formula for the midpoint section? ›

Important Notes on Section Formula:

Section formula for external division is: P(x, y) = (mx2−nx1m−n,my2−ny1m−n) ( m x 2 − n x 1 m − n , m y 2 − n y 1 m − n ) Midpoint formula is: M(x, y) = (x2+x12,y2+y12) ( x 2 + x 1 2 , y 2 + y 1 2 )

What is the distance and midpoint of a segment? ›

The distance between two points is the length of the line segment connecting them. The midpoint of a line segment is the middle point that lies on the line segment.

What is the formula for the midpoint theorem? ›

Mid-Point Theorem Proof

If a line segment adjoins the mid-point of any two sides of a triangle, then the line segment is said to be parallel to the remaining third side and its measure will be half of the third side. DE = (1/2 * BC).

What is the midpoint and half distance? ›

The midpoint and half the distance between two numbers can be found using simple arithmetic. The midpoint is the average of the two numbers, and the half distance is half the difference between the two numbers. So, the midpoint is 18. Therefore, half the distance between −120 and 156 is 138.

What is the distance formula in trigonometry? ›

B (distance) = A (height) /tan ( e )

Therefore, to calculate B (distance) we need to know the value of A (height) and angle e. (tan is a trigonometric function which you should be able to find on a decent calculator, just make sure you are calculating using degrees not radians).

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