X-Puzzles and Area Models For Integers and Beyond…
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Transcript X-Puzzles and Area Models For Integers and Beyond…
X-Puzzles and Area Models
For Integers and Beyond…
Elizabeth Karrow Jennifer Smith
Diane Jacobs
Marci Soto
Fitz Intermediate School - Garden Grove USD
Agenda
•
•
•
•
X-Puzzles
Area Model
Reverse Area Model
X-Box Factoring
Diane Jacobs
Liz Karrow
Marci Soto
Jennifer Smith
X-Puzzles
• Introduced in Pre-algebra (7th grade).
• Simple pattern, that is discovered, not
taught.
X-Puzzles
Using the pattern in puzzles A and B, complete
puzzles C, D and E.
Did you get?
A.
3
6
5
B.
2
4
12
7
C.
3
10
5
D.
2
7
You
discovered
21
3
7
10
the
pattern!
E.
12
24
2
14
X-Puzzles
After students have learned to add, subtract, multiply
and divide integers, X-Puzzles are used for basic
practice in daily warm-ups and homework.
Try these!
F.
G.
5
4
H.
10
2
I.
10
4
7
2
J.
3
2
X-Puzzles
Strengthen the skills by working backward.
K.
12
L.
1
6
M.
1
N.
5
3
15
8
O.
36
0
X-Puzzles
Fractions are an ongoing weakness. Regular practice
with X-Puzzles increases skill and illuminates the
difference between adding/subtracting fractions and
multiplying/dividing fractions.
P.
Q.
1
2
U.
R.
V.
3
1 8
2
1
6
W.
X.
2
3
7
12
2
5
1
3
1
2
3
4
1
2
S.
1
4
T.
3
8
1
6
1
4
1
Y.
1
1
5
2
3
8
7
4
3
4
X-Puzzles
In Algebra X-Puzzles are used to reinforce the
differences between combining like terms and
multiplying exponents.
AA.
AB.
3x
2x
AC.
4x2
3x
5 x 3
AD.
x
2
3 x 2 7 x
5x
2
Working
backwards reinforcesthe skills further.
AF.
4 x
2x
2
AG.
10 x
AH.
2
2
AI.
3x 3
2x3
x3
AE.
3x 2 x
AJ.
12 x 2
4x
X-Puzzles
X-Puzzles can also be used for polynomials and radicals.
AK.
x2
AL .
x 6
x 6
1
AQ.
AP.
4 3
AU.
3 x 3 2 x 2
3
5x2
5 2
8
AV.
10
6
AW. 6 15
6
2 5
4x 3
2 5
AT.
12
15
2 3
AX.
AY.
150
2 11
2 3
2
AS.
6 3
x 2
AR.
AO.
2x
AN. x 2 49
AM.
11
3
8 10
Area Model
Simplify:
3(2x 5)
What mistakes would your students make?
Area Model
Simplify:
3(2x 5)
Distributive Property teaches…
Students often forget the second term:
6x 5
Students often forget the negative:
6 x 15
As well as other issues our students seem to encounter.
Area Model
3(2x 5)
2 x students
5
The area model helps
avoid some of3the6most
x 15
Simplify:
common mistakes.
3(2x 5) 6 x 15
Area Model
Simplify:
4(3x 3)
3 x 3
4 12 x 12
4(3x 3) 12 x 12
Area Model
Simplify:
2(x 4) 6(3x 5)
x
3
x
5
4
What are the common mistakes
make
8 would
x 30
6 18
2your2 xstudents
simplifying this problem?
2( x 4) 6(3x 5) 2x 8 18 x 30
Area Model
Simplify:
3x (2x 3x 1)
2
What would the 2area model look
3
x
1
2
x
like to simplify this problem?
3 x 6x 9x
3
2
3x
3x (2x 3x 1) 6x 9x 3x
2
3
2
Area Model
(2x 3)(x 4)
2x 3
What would the area model
look
2 3x
x
like to simplify x
this2problem?
Simplify:
4 8 x 12
(2x 3)( x 4) 2x 5x 12
2
Area Model
Simplify:
(x 5)(3x 3x 7)
2
x
3x area3model
What would the
look
7
like to simplify
this
problem?
3
2
x
7 x
2
3x
3x
5 15x 15x
2
35
(x 5)(3x 3x 7) 3x 3 12x 2 22x 35
2
Reverse Area Model
Greatest Common Factor
• Students need to review the greatest
common factor first before they can be
successful at reverse area model.
Reverse Area Model
• We are doing the area
model, but backwards.
• We will give you this:
5x
• You need to tell us
this:
5
10
x
2
x
10
2x
x
2x
2
1
x
x(2x 1)
x
3x
2
5 x 5x 15x
2
3
5x(x 3x )
2
1
3x
2x 6x
3
2
9x
2x
3
(2 x 3)(3x 1)
x
x
2
3
x
3
3x
1
x
2
3
(x 3)(x 1)
2
2x
2x
2
4x
3
x
2x
1
2
2x
2x(2x x 1)
2
5a
2a
2
2
3a
7
10a 6a 14a
4
3
2
2a (5a 3a 7)
2
2
5x
x
2
5x
3
2
2x
9x
2
x (5x 2)
2
x
2
2
3
9 x 2x
2
x (9x 2)
2
Common Factor?
x
2
3x
1
2
2x
2x 6x
3
9x
3
3x
2x 6x
(2 x 3)(3x 1)
2
7 21x
1
2x
7
(2x 7)(3x 1)
Common Factor
(3x 1)
Reverse Area Model and
Completing the Square
Standard Form
y 2x 12x 14
2
to Vertex Form
y 2(x 3) 4
2
In 6 easy steps!
Step 1:
Identify a, b and c
y 2x 12x 14
2
a = 2 b = -12 c = 14
Step 2:
Move c to left side.
y 2x 12x 14
2
14
14
y 14 2x 12x
2
Step 3:
Factor “a” out of right side using
the reverse area model.
y 14 2x 12x
2
x 6x
2
2 2 x 12x
y 14 2(x
6x
2
Leave room to complete
the square!
2
)
Step 4:
Complete the square using the
reverse area model.
x
3
x x 2 3x
3 3x 9
14
y
2(x 6x 9 ))
2
18
2
y 4 2(x 6x 9)
Step 5:
Write as a binomial squared.
x
3
x x 2 3x
3 3x 9
y 4 2(x 6x 9)
2
y 4 2( x 3)( x 3)
y 4 2(x 3)
2
Step 6:
Move “k” to the left side.
y 4 2(x 3)
2
4
4
2
y 2(x 3) 4
Graph:
y 2x 12x 14
2
y 2(x 3) 4
2
Vertex: (3, -4)
QuickTime™ and a
TIFF (Uncompressed) decompressor
are needed to see this picture.
X - Box Method for Factoring
• Prior Knowledge
– X - puzzle
– Area model
– Standard form of a quadratic equation
• Benefits
–
–
–
–
Builds on prior knowledge
No more guessing involved
Organization
Fun!
Using the x-box method
Given: 3x2 - 13x +12
36x2
-9x
3x
-4
x
3x2
-4x
-3
-9x
12
-4x
-13x
Answer: (x - 3)(3x - 4)
You try one!
• Given: 12x2 + 5x - 2
4x
-1
3x
12x2
-3x
2
8x
-2
-24x2
8x
-3x
5x
Answer: (4x - 1)(3x + 2)
One more…
• Given: x2 - 10x - 24
x
2
x2
2x
-12x
-24
-24x2
x
-12x
2x
-10x
-12
Answer: (x + 2)(x - 12)
Same numbers that
were in the x-puzzle!
It even works with the difference of
2 squares (“b” term is missing)!
• Given: 4x2-9
2x
3
-36x2
2x
-6x
4x2
6x
-6x
-9
6x
0
-3
Answer: (2x - 3)(2x + 3)
It also works if the “c” term is
missing!
• Given: 4x2-8x
0
4x
0
x
4x2
0
-2
-8x
0
-8x
0
-8x
Answer: 4x(x - 2)