introduction to matrices
TRANSCRIPT
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Introduction to the MatrixGrab some paper and a pencil because we are going to do some learnin’ today!
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Content
• What is a Matrix?
• What is it Used For?
• Describing a Matrix
• Matrix Addition
• Matrix Subtraction
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What is… THE MATRIX?
▫ a rectangular array of objects
▫ way of organizing information
▫ matrix v. matrices
5419
3116
2118
972
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▫ Elements
▫ Rows
▫ Columns
3 Key Features
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Describe the matrix
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• Dimensions = row x column
• Element notation = arc
• Example: a32 = ___
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Check your work.
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• Dimensions = row x column
• Element notation = arc
• Example: a32 = 11
*This matrix has dimension 4x3.
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What is a matrix used for?
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• To organize information
• How many jellybeans did Paulie get?
• Who got the most chocolate bars?
• What does the sum of the first row represent?
• What does the sum of the third column represent?
Mark
Janice
Paulie
Joyce
Chocolate Bars
Lollipops Jellybeans
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Check your work.
5419
3116
2118
972
• To organize information
• How many jellybeans did Paulie get?3
• Who got the most chocolate bars?Joyce
• What does the sum of the first row represent?Mark’s total candy item count
• What does the sum of the third column represent?The number of jellybeans the group has all together
Mark
Janice
Paulie
Joyce
Chocolate Bars
Lollipops Jellybeans
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What are the dimensions of…
6599
4511
766
53
8732
• Find elements a21 and a34 in both matrices.
54511526755
3521151787533
87984336733
50746788
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Check your work.
6599
4511
766
53
8732
• Find elements a21 and a34 in both matrices.
The first matrix has a 3 in a21 and no element in a34.
The second matrix has a 33 in a21 and 17 in a34.
54511526755
3521151787533
87984336733
50746788
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What if we have more than one?
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Mark
Janice
Paulie
Joyce
Chocolate Bars
Lollipops Jellybeans
281
8112
1724
1197
Matt
Jane
Pat
Joe
Chocolate Bars
Lollipops Jellybeans
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Matrix Addition
• As long as the dimensions of the matrices are the same, finding their sum is as simple as adding the matching elements and creating a new matrix with that information!
5419
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2118
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281
8112
1724
1197
2584119
83111126
17212148
1199772
71220
111218
38312
20119
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Add!
• What do you notice about the sum of these matrices?
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568
378
262
147
973
795
568
378
262
147
973
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Check your work.
• What do you notice about the sum of these matrices?The sum is the same no matter the order of the matrices.
795
568
378
262
147
973
795
568
378
262
147
973
9157
61015
121411
9157
61015
121411
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Matrix Subtraction
• As long as the dimensions of the matrices are the same, finding their difference is as simple as subtracting the matching elements and creating a new matrix with that information!
5419
3116
2118
972
281
8112
1724
1197
2584119
83111126
17212148
1199772
3418
5106
414
225
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Subtract!
• What do you notice about the difference of these matrices?
795
568
378
262
147
973
795
568
378
262
147
973
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Check your work.
• What do you notice about the difference of these matrices?The difference is the opposite when you switch the order of the matrices.
795
568
378
262
147
973
795
568
378
262
147
973
533
421
605
533
421
605
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What if there’s more than two?
• Does the grouping matter?
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17
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72
19
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17
811
53
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Check your work.
• Does the grouping matter? No.
19
13
17
811
53
72
19
13
17
811
53
72
513
1616
513
1616
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What if there’s more than two?
• Does the grouping matter?
19
13
17
811
53
72
19
13
17
811
53
72
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Check your work.
• Does the grouping matter? Yes.
19
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53
72
19
13
17
811
53
72
519
212
55
1410
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Summary of Properties
• Matrix Addition is both commutative and associative.
• Matrix Subtraction is neither commutative nor associative.
• Its just like numerical addition and subtraction!
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References
• Information in this presentation was created by Liz Wascher at Central Lake Public Schools.
• All images were retrieved from Microsoft PowerPoint clip art.