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Warm UP: Review of Inequalities What do each of the symbols represent: 1. > 2. < 3. 4. 1. Greater Than 2. Less than 3. Less than or equal to 4. Greater.

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Presentation on theme: "Warm UP: Review of Inequalities What do each of the symbols represent: 1. > 2. < 3. 4. 1. Greater Than 2. Less than 3. Less than or equal to 4. Greater."— Presentation transcript:

1 Warm UP: Review of Inequalities What do each of the symbols represent: 1. > 2. < 3. 4. 1. Greater Than 2. Less than 3. Less than or equal to 4. Greater than or equal to Graph the inequalities. 5. 6. 7. 8.

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3 Section 10.5 – Applications of Matrices and Determinants After this section, you should be able to: Solve and graph inequalities Section 1.7 – Linear Inequalities AND Use matrices to find the area of a triangle Use matrices to determine if points are collinear

4 Find the area of the triangle whose vertices are: a) (5, 2), (7, 1), (-2, 3) The area of the triangle is b) (-2, 1), (0, 4), (3, 6) The area of the triangle is Use matrices to find the area of a triangle

5 (2, 7), (-3, -3), (5, 13) are collinear. Since determinant is zero, the three points are collinear Application 2 – Collinearity of Points Use a determinant to determine whether the points are collinear. Use matrices to determine if points are collinear

6 (1, -2), (-4, 1), (0, 3) The three points are NOT collinear Use a determinant to determine whether the points are collinear. Use matrices to determine if points are collinear

7 Section 10.5 – Applications of Matrices and Determinants After this section, you should be able to: Solve and graph inequalities Section 1.7 – Linear Inequalities AND Use matrices to find the area of a triangle Use matrices to determine if points are collinear HOMEWORK: Pg. 149 #44 (no calc) Solve and Graph & Pg. 763 # 13, 20, 29, 31

8 Section 10.5 day 2 – Cryptography A Cryptogram is a message written according to a secret code. Matrix multiplication can be used to encode and decode messages. First, each letter in the alphabet is assigned a number (with 0 assigned to a blank space). Then the message is converted to numbers and partitioned into uncoded row matrices, each having n entries. Example #1 – Given the alphabet assignment below, write the uncoded row matrix of order 1 x 3 for the message “MEET ME MONDAY”. 0 = _ 1 = A 2 = B 3 = C 4 = D 5 = E 6 = F 7 = G 8 = H 9 = I 10 = J 11 = K 12 = L 13 = M 14 = N 15 = O 16 = P 17 = Q 18 = R 19 = S 20 = T 21 = U 22 = V 23 = W 24 = X 25 = Y 26 = Z [ 13 5 5 ] [ 20 0 13 ] [ 15 14 4 ] [ 5 0 13 ] M E E T M E M O N D A Y [ 1 25 0 ] *Note that a blank space is used to fill out the last uncoded row matrix

9 Section 10.5 day 2 – Cryptography To encode a message, choose an n x n invertible matrix such as A = *a square matrix that does not have a det = 0 This is what makes your encryption unique Multiply the uncoded row matrices by A (on the right) to obtain coded row matrices. [ 13 5 5 ] = [ 13 -26 21 ] [ 20 0 13 ] = [ 33 -53 -12 ] = [ 18 -23 -42 ] = [ 5 -20 56 ] = [ -24 23 77 ] [ 15 14 4 ] [ 5 0 13 ] [ 1 25 0 ] So, the sequence of coded row matrices is: 13 -26 21 33 -53 -12 18 -23 -42 5 -20 56 -24 23 77 [ 13 5 5 ] Do this for each of the 1x 3 matrices and you will Have decoded the message MEET ME MONDAY


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