ONLY COMPLETE THE ODD PROBLEMSIGNORE THE 1S' SENTENCETZ.0Practice AFor use with pages 745–750Use the coordinate plane to estimate the distance between thetwo points. Then use the distance formula to find the distancebetween the points. Round the result to the nearest hundredth nnecessary.|(4,3)1.2.-3y-33-(2, 3)1.(-3, 1)1-3.5 x-3-3-1(1, -4)(-3, -3)(2,-3)Find the distance between the two points. Round the result to thenearest hundredth if necessary.6. (0, 3), (2, 6)9. (3, – 5), (–2, 0)4. (1, 1), (4, 4)5. (2, 5), (5, 1)7. (1, 6), (5, 1)8. (-2, 8), (4, 0)10. (-3, -5), (6, 5)11. (8, 6), (-4, - 3)12. (-5, 2), (–2, 5)Use the distance formula to decide whether the three points arevertices of a right triangle.13. (1, 1), (4, 4), (4, 1)14. (0, 6), (4, 6), (4, 2)15. (-2, 6), (5, 3), (1, – 2)16. (3, -4), (-2, – 1), (4, 6)Find the midpoint between the two points.17. (1, 1), (5, 5)18. (2, 3), (4, 5)19. (3, 0), (5, –4)20. (-5, -2), (3, 6)21. (0, -5), (3, -2)22. (4, – 1), (– 1, 4)23. (-3, -5), (-3, 2)24. (2, -6), (-2, 3)25. (-2, –4), (4, 6)Boston SuburbsUse the map shown. Each side of each square is4 kilometers. The points represent city locations.26. Use the distance formula to estimate the distance betweenPeabody and Bedford.BedfordPeabody27. Use the distance formula to estimate the distance betweenBedford and Hingham.Sudbury28. Use the distance formula to estimate the distance betweenSudbury and Hingham.HinghamLesson 12.63. ClassPractice 11-2DateCan you form a right triangle with the three lengths given?The Pythagorean TheoremShow your work.1. 5, 4, V412. 8,9, 103. 28, 45, 534. 6, VI0, 7In each right triangle, find each missing length to the nearest tenth of a unit.5.5 cm6.6 ft13 cm8 ft7.8.9 in.5 mV146 m7 in.Use the triangle at the right. Find the missing length to the nearest tenthof a unit.10. a = 11 in., c = 42 in.9. a = 2 m, b = 4 ma12. a = 17 ft, c = 45 ft11. b = 14 cm, c = 22 cmb

As per our guidelines we can only answer 3 subparts and rest can be reposted. Here it us asked to…

Use the coordinate plane to estimate the distance between the two points. Then use the distance formula to find the distance between the points. Round the result to the nearest hundredth If necessary. |(4, 3) 3. 1. 2. y -3. 3- (2, 3) (-3, 1) 5 x -3 3 x (1, – 4) (-3, -3) (2, –3) Find the distance between the two points. Round the result to the nearest hundredth if necessary. 4. (1, 1), (4, 4) 5. (2, 5), (5, 1) 6. (0, 3), (2, 6) 9. (3, -5), (–2, 0) 7. (1, 6), (5, 1) 10. (-3,-5), (6, 5) 8. (-2, 8), (4, 0) 11. (8, 6), (→4, - 3) 12. (-5, 2), (–2, 5) Lesson 12,6

Use the coordinate plane to estimate the distance between the two points. Then use the distance formula to find the distance between the points. Round the result to the nearest hundredth If necessary. |(4, 3) 3. 1. 2. y -3. 3- (2, 3) (-3, 1) 5 x -3 3 x (1, – 4) (-3, -3) (2, –3) Find the distance between the two points. Round the result to the nearest hundredth if necessary. 4. (1, 1), (4, 4) 5. (2, 5), (5, 1) 6. (0, 3), (2, 6) 9. (3, -5), (–2, 0) 7. (1, 6), (5, 1) 10. (-3,-5), (6, 5) 8. (-2, 8), (4, 0) 11. (8, 6), (→4, - 3) 12. (-5, 2), (–2, 5) Lesson 12,6

Elementary Geometry For College Students, 7e

7th Edition

ISBN:9781337614085

Author:Alexander, Daniel C.; Koeberlein, Geralyn M.

Publisher:Alexander, Daniel C.; Koeberlein, Geralyn M.

ChapterP: Preliminary Concepts

SectionP.CT: Test

Problem 1CT

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Concept explainers

Family of Curves

A family of curves is a group of curves that are each described by a parametrization in which one or more variables are parameters. In general, the parameters have more complexity on the assembly of the curve than an ordinary linear transformation. These families appear commonly in the solution of differential equations. When a constant of integration is added, it is normally modified algebraically until it no longer replicates a plain linear transformation. The order of a differential equation depends on how many uncertain variables appear in the corresponding curve. The order of the differential equation acquired is two if two unknown variables exist in an equation belonging to this family.

XZ Plane

In order to understand XZ plane, it's helpful to understand two-dimensional and three-dimensional spaces. To plot a point on a plane, two numbers are needed, and these two numbers in the plane can be represented as an ordered pair (a,b) where a and b are real numbers and a is the horizontal coordinate and b is the vertical coordinate. This type of plane is called two-dimensional and it contains two perpendicular axes, the horizontal axis, and the vertical axis.

Euclidean Geometry

Geometry is the branch of mathematics that deals with flat surfaces like lines, angles, points, two-dimensional figures, etc. In Euclidean geometry, one studies the geometrical shapes that rely on different theorems and axioms. This (pure mathematics) geometry was introduced by the Greek mathematician Euclid, and that is why it is called Euclidean geometry. Euclid explained this in his book named 'elements'. Euclid's method in Euclidean geometry involves handling a small group of innately captivate axioms and incorporating many of these other propositions. The elements written by Euclid are the fundamentals for the study of geometry from a modern mathematical perspective. Elements comprise Euclidean theories, postulates, axioms, construction, and mathematical proofs of propositions.

Lines and Angles

In a two-dimensional plane, a line is simply a figure that joins two points. Usually, lines are used for presenting objects that are straight in shape and have minimal depth or width.

Question

ONLY COMPLETE THE ODD PROBLEMS
IGNORE THE 1S' SENTENCE
TZ.0
Practice A
For use with pages 745–750
Use the coordinate plane to estimate the distance between the
two points. Then use the distance formula to find the distance
between the points. Round the result to the nearest hundredth n
necessary.
|(4,3)
1.
2.
-3
y
-3
3-
(2, 3)
1.
(-3, 1)
1-
3.
5 x
-3
-3
-1
(1, -4)
(-3, -3)
(2,-3)
Find the distance between the two points. Round the result to the
nearest hundredth if necessary.
6. (0, 3), (2, 6)
9. (3, – 5), (–2, 0)
4. (1, 1), (4, 4)
5. (2, 5), (5, 1)
7. (1, 6), (5, 1)
8. (-2, 8), (4, 0)
10. (-3, -5), (6, 5)
11. (8, 6), (-4, - 3)
12. (-5, 2), (–2, 5)
Use the distance formula to decide whether the three points are
vertices of a right triangle.
13. (1, 1), (4, 4), (4, 1)
14. (0, 6), (4, 6), (4, 2)
15. (-2, 6), (5, 3), (1, – 2)
16. (3, -4), (-2, – 1), (4, 6)
Find the midpoint between the two points.
17. (1, 1), (5, 5)
18. (2, 3), (4, 5)
19. (3, 0), (5, –4)
20. (-5, -2), (3, 6)
21. (0, -5), (3, -2)
22. (4, – 1), (– 1, 4)
23. (-3, -5), (-3, 2)
24. (2, -6), (-2, 3)
25. (-2, –4), (4, 6)
Boston Suburbs
Use the map shown. Each side of each square is
4 kilometers. The points represent city locations.
26. Use the distance formula to estimate the distance between
Peabody and Bedford.
Bedford
Peabody
27. Use the distance formula to estimate the distance between
Bedford and Hingham.
Sudbury
28. Use the distance formula to estimate the distance between
Sudbury and Hingham.
Hingham
Lesson 12.6
3.

Class
Practice 11-2
Date
Can you form a right triangle with the three lengths given?
The Pythagorean Theorem
Show your work.
1. 5, 4, V41
2. 8,9, 10
3. 28, 45, 53
4. 6, VI0, 7
In each right triangle, find each missing length to the nearest tenth of a unit.
5.
5 cm
6.
6 ft
13 cm
8 ft
7.
8.
9 in.
5 m
V146 m
7 in.
Use the triangle at the right. Find the missing length to the nearest tenth
of a unit.
10. a = 11 in., c = 42 in.
9. a = 2 m, b = 4 m
a
12. a = 17 ft, c = 45 ft
11. b = 14 cm, c = 22 cm
b

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