Geometry Review Packet for

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Geometry Review Packet
Semester 1 M.C. Final
Name_______________________
Section 1.1
1. Name all the ways you can name the following ray:

B
A
1________________________

C
Section 1.2
2. What is a(n)
a) acute angle
2a
b) right angle
2b
c) obtuse angle
2c
d) straight angle
2d
3. Change 41
2
to degrees and minutes.
5
4. Given: ABC is a rt. 
mABD = 6721’ 37”
Find: mDBC
A
D
B
Section 1.3
C
B
6
5a. AC must be smaller than what number?
A
10
x
C
5b. AC must be larger than what number?
1
6. Can a triangle have sides of length 12, 13, and 26?
7. Given: m1 = 2x + 40
m2 = 2y + 40
m3 = x + 2y
1
2
3
Find: m1, m2, and m3
8. EH is divided by F and G in the ratio of 5:3:2 from left to right. If EH = 30, find FG and name the
midpoint of EH .
Section 1.4
9a. Draw the reflection over AF .
9b. Draw the reflection over AB .
Section 1.7
10. What is a postulate?
11. What is a definition?
12. What is a theorem?
13. Which of the above (#10 - 12) are reversible?
Section 1.8
14. If a conditional statement is true, then what other statement is also true?
2
15. State the converse, inverse, and contrapositive for the following conditional statement:
If Cheryl is a member of the Hinsdale Central basketball team, then she is a student at
Hinsdale Central.
Converse:
Inverse:
Contrapositive:
16. Place the following statements in order, showing a proper chain of reasoning. Then write a
concluding statement based upon the following information:
ab
d  ~c
~c  a
bf
Section 2.1
1. If AB  BC and 1, 2. and 3 are in the ratio 1:2:3,
find the measure of each angle.
Section 2.2
A
1
B
2
3
C
2. One of two complementary angles is twice the other. Find the measures of the angles.
3. The larger of two supplementary angels exceeds 7 times the smaller by 4. Find the measure of the
larger angle.
Section 2.5
4. Given: GH  JK , GH = x + 10
HJ = 8, JK = 2x - 4
Find: GJ
3
G
Section 2.6
5. Given: HGJ  ONP
GJ and NP are bisectors
mHGJ = 25, mONR = (2x + 10)
Find: x
H
Section 2.8
J
N
K
O
P
R
(3x + 42)
6. Is this possible?
(4x + 45)
Section 3.2
1. Name the method (if any) of proving the triangles congruent. (SSS, ASA, SAS, AAS, HL)
a)
b)
c)
d)
e)
f)
4
g)
h)
2. Identify the additional information needed to support the method for proving the triangles
congruent.
O
a) K
HGJ  OMK
G
by SAS _______________
by ASA _______________
M
H
V
b)
by HL ________________
J
PSV  TRV
by SAS _______________
by ASA _______________
by AAS _______________
P
c)
T
S
R
W
Z
ZBW  XAY
by SSS _______________
by SAS _________________
A
B
X
Y
Section 3.4
TW is a median
ST = x + 40
SW = 2x + 30
WV = 5x – 6
Find: SW, WV, and ST
T
3. Given:
S
W
V
5
Section 3.6
G
4. If the perimeter of ΔEFG is 32, is ΔEFG scalene,
isosceles, or equilateral?
x+7
10
E
F
2x - 3
A
5. Given: AB and AC are the legs of isosceles ΔABC.
m1 = 5x
m3 = 2x + 12
Find: m2
2
C
3
1
B
6. If the mC is acute, what are the restrictions on x?
(x + 20)°
C
7. Given: m1, m2, m3 are in the ratio 6:5:4.
Find the measure of each angle.
1
8. If ΔHIK is equilateral, what are the values of x and y?
2
3
H
15
I
x+8
1
y6
3
K
6
Section 3.7
Q
9. Given: mP + mR < 180°
PQ < QR
Write an inequality describing the
restrictions on x.
(7x – 18)°
P
(4x)°
R
A
10. Given: AB  AC
Solve for x.
B
(x2 –6x)°
55°
C
Section 4.1
1. Find the coordinates of the midpoint of each side of ABC.
Midpoint of AB =
A (-4, 3)
B (6, 5)
Midpoint of BC =
C (6, -1)
Midpoint of AC =
2. Find the coordinates of B, a point on circle O.
B (x, y)
O (7, 6)
A (6, 2)
Section 4.3
3. If squares A and C are folded across the dotted segments onto B, find the area of B that will not be
covered by either square.
18
4
A
B
C
7
4. Is b  a? Justify your answer.
b
a
Section 4.6
5. AB has a slope of
2x  37 2x  y 
3y  21
5
. If A = (2, 7) and B = (12, c), what is the value of c?
2
6. Use slopes to justify your answers to the following questions.
C (9, 8)
a. Is RE || TC ?
T (-3, 4)
b. Is TR || CE ?
E (10, 5)
R (-2, 1)
c. Show that R is a right angle.
7. Given the diagram as marked, with AC an altitude and AD a median, find the slope of each line.
a. BE
A (5, 9)
b. AC
c. AD
E (11, 3)
B (3, 1)
C
D
d. A line through A and parallel to BE .
8
Section 5.1
Use the diagram on the right for #1 & 2.
1. Identify each of the following pairs of angles as alternate interior, alternate exterior, or
corresponding.
E
D
a. For BE and CD with transversal BC ,
1 and C are _________________.
5
4
b. For AE and BD with transversal BE ,
2 and 4 are _________________.
2. If AE || BD is:
a. 4  C?
2
1
A
b. 4  3?
3
B
C
c. 4  2?
Q
Section 5.2
R
1
3. If 1  2, which lines are parallel?
2
S
P
4. Write an inequality stating the restrictions on x.
3x
x  50
Section 5.3
5x  20
6. Given: a || b
m1 = x  3y 
3x  30
a
2
m2 = 2x  30
m3 = 5y  20
Find: m1
e
2x  10
5. Are e and f parallel?
b
f
1
3
9
7. If f || g, find m1.
f
70
1
100
8. Given: AD || BC
Name all pairs of angles that must be congruent.
D
2 3
A
Sections 5.4 – 5.7
9. ABCD is a
.
Find the perimeter of ABCD.
g
4
6
1
A
2x + 6
C
5
B
B
8
D
10. Given: mIPT = 5x – 10
KP = 6x
Find KT
K
I
x+8
C
T
P
E
11. Given:
M
KMOP
O
mM = x  3y 
mO = x  4
mP = 4 y  8
Find: mK
K
P
10
R
E
12. Given: RECT is a rectangle
RA = 43x
AC = 214x – 742
Find: The length of ET to the nearest tenth.
A
T
Sect. 6.1-6.2
C
1. a  b = ________
2. ET and point _______ determine plane b.
a
E
G
3. M, E and T determine plane ________
b
O
M
Y
4. TE and GM determine plane ________
T
R
5. Name the foot of OR in a. ________
6. Is M on plane b ? ________
W
7. Given: WY  XY
1
x + 68
3
WYX = 2x – 30
WYZ =
Is WY  a ?
a
Y
X
Sect. 6.3
n
A
8. a. Is ABCD a plane figure?
b. If m || n, is AB || CD?
Z
D
B
c. If AB || CD, is m || n ?
m
C
9. True or False.
a. _____ Two lines must either intersect or be parallel.
b. _____ In a plane, two lines  to the same line must be parallel.
c. _____ In space, two lines  to the same line are parallel.
d. _____ If a line is  to a plane, it is  to all lines on the plane.
11
e. _____ Two planes can intersect at a point.
f. _____ If a line is  to a line in a plane, it is  to the plane.
g. _____ If two lines are  to the same line, they are parallel.
h. _____ A triangle is a plane figure.
i. _____ Three parallel lines must be co-planar.
j. _____ Every four-sided figure is a plane figure.
Sect 7.1
5
6 4
1. Given: 5 = 70
3 = 130
Find the measures of all the angles.
2
1
3
X
2. Given: Diagram as shown
Find: AB and W
40
80
A
W
3. Find the restrictions on x.
26
B
Y
(4x + 12)
120
4. The measures of the 3 ’s of a  are in the ratio 2:3:5. Find the measure of each angle.
5. Given: T = 2x + 6
RSU = 4x + 16
R = x + 48
Find: mT
R
Sect. 7.2
6. Given: A  D
B is the midpoint of CE
Is ABC  DBE? If so, by which theorem?
S
T
U
A
E
B
C
D
12
I
7. If I  A, is IFA  NLA ?
If so, by which theorem?
Sect. 7.3
A
N
F
L
8. Find the sum of the measures of the angles in a 14-gon.
9. What is the sum of the measures of the exterior angles of an octagon?
10. Find the number of diagonals in a 12-sided polygon.
11. Determine the number of sides a polygon has if the sum of the interior angles is 2340.
Sect 7.4
12. Find the measure of each exterior angle of a regular 20-gon.
13. Find the measure of an angle in a regular nonagon.
14. Find the sum of the measures of the angles of a regular polygon if each exterior angle measures 30.
Sections 1.1 - 7.4
Sometimes, Always or Never (S, A, or N)
___ 1. The triangles are congruent if two sides and an angle of one are congruent to the corresponding
parts of the other.
___ 2. If two sides of a right triangle are congruent to the corresponding parts of another right
triangle, the triangles are congruent.
___ 3. All three altitudes of a triangle fall outside the triangle.
___ 4. A right triangle is congruent to an obtuse triangle.
___ 5. If a triangle is obtuse, it is isosceles.
___ 6. The bisector of the vertex angle of a scalene triangle is perpendicular to the base.
___ 7. The acute angles of a right triangle are complementary.
___ 8. The supplement of one of the angles of a triangle is equal in measure to the sum of the other two
angles of the triangle.
13
___ 9. A triangle contains two obtuse angles.
___ 10. A triangle is a plane figure.
___ 11. Supplements of complementary angles are congruent.
___ 12. If one of the angles of an isosceles triangle is 60, the triangle is equilateral.
___ 13. If the sides of one triangle are doubled to form another triangle, each angle of the second
triangle is twice as large as the corresponding angle of the first triangle.
___ 14. If the diagonals of a quadrilateral are congruent, the quadrilateral is an isosceles trapezoid.
___ 15. If the diagonals of a quadrilateral divide each angle into two 45-degree angles, the quadrilateral
is a square.
___ 16. If a parallelogram is equilateral, it is equiangular.
___ 17. If two of the angles of a trapezoid are congruent, the trapezoid is isosceles.
___ 18. A square is a rhombus
___ 19. A rhombus is a square.
___ 20. A kite is a parallelogram.
___ 21. A rectangle is a polygon.
___ 22. A polygon has the same number of vertices as sides.
___ 23. A parallelogram has three diagonals.
___ 24. A trapezoid has three bases.
___ 25. A quadrilateral is a parallelogram if the diagonals are congruent.
___ 26. A quadrilateral is a parallelogram if one pair of opposite sides is congruent and one pair of
opposite sides is parallel.
___ 27. A quadrilateral is a parallelogram if each pair of consecutive angles is supplementary.
___ 28. A quadrilateral is a parallelogram if all angles are right angles.
___ 29. If one of the diagonals of a quadrilateral is the perpendicular bisector of the other, the
quadrilateral is a kite.
14
___ 30. Two parallel lines determine a plane.
___ 31. If a plane contains one of two skew lines, it contains the other.
___ 32. If a line and a plane never meet, they are parallel.
___ 33. If two parallel lines lie in different planes, the planes are parallel.
___ 34. If a line is perpendicular to two planes, the planes are parallel.
___ 35. If a plane and a line not in the plane are each perpendicular to the same line, then they are
parallel to each other.
___ 36. In a plane, two lines perpendicular to the same line are parallel.
___ 37. In space, two lines perpendicular to the same line are parallel.
___ 38. If a line is perpendicular to a plane, it is perpendicular to every line in the plane.
___ 39. If a line is perpendicular to a line in a plane, it is perpendicular to the plane.
___ 40. Two lines perpendicular to the same line are parallel.
___ 41. Three parallel lines are coplanar.
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