Kathleen Williams – Secondary Math Instructor

1. Three Ways to Take Algebra IIand Still Enroll in Career-Tech Wayne-Westland Community SchoolsWilliam D. Ford Career-Technical Center Westland, MI Kathleen Williams – Secondary Math Instructor Michael Koelzer – Construction Technology Instructor

2. Three Methods • Extended Algebra II • Moodle Algebra II • Embedded Algebra II

3. Extended Algebra II • Students Enroll in both CTE class and Algebra II • Students receive 1 credit per semester from CTE class • Students receive ½ credit from Algebra II • Students attend Algebra II every day for 50 minutes at WDFCTC and Math Instructors and follow Wayne-Westland district pacing guide for Extended Algebra II • Advantage – Students can attend CTE center. • Disadvantage – CTE Instructors must modify instruction time and/or requirements for missed “skill” time in CTE class.

5. Moodle Algebra II • Traverse Bay Area Intermediate School District www.tbaisd.k12.mi.us • Health Occupation, Medical Assisting and Child Care Students Enroll in both CTE class and Moodle Algebra II. • Students receive 1 credit per semester from CTE class • Students receive ½ credit from Algebra II • Students attend Algebra II every day for 50 minutes at WDFCTC and Math Instructors and follow a modified curriculum for 2nd year Extended Algebra II (Family of Functions is taught 1st semester as a general overview and Trig is not taught 2nd semester.) • Advantage – Students can attend CTE center and be out of Algebra II by early April so that they can attend their clinicals full-time. • Disadvantage – Math Instructor has to teach complete lessons to Moodle students (who are attending mini-clinicals which last up to two weeks) after school up to 4 days a week until the math has been covered.

6. Embedded Algebra II • Students stay in their CTE class full-time. • Math Instructor teaches once a week in the CTE classroom • CTE Instructor repeats instruction as needed over the week • Advantage – Students have some project based lessons • Disadvantage – Depth of all Algebra II is not attainable with this format.

7. A1.2.9 Know common formulas (e.g., slope, distance between two points, quadratic formula, compound interest, distance = rate*time), and apply appropriately in contextual situations. CONSTRUCTION: Find the length of rafter c (NOTE: Do not include any overhang) c 7’ 17’ ELECTRONICS: E = I*R R = E/I I = E/R RT = R1+R2+R3 P = E*I P = I2*R P = E2/R RT = (R1*R2)/(R1+R2) I = P/E R = P/I2 R = E2/P E = P/I I = P/R E = P*R WELDING: Hypotenuse = leg 2 c = 5 2 45o-45o-90o Triangle a = b c c = b 2 or a 2 b a A c 90o 45o B C

8. L1.2.1 Use mathematical symbols (e.g., interval notation 0 ≤ x ≤ 5; set notation {1, 2, 3}; summation notation) to represent quantitative relationships and situations. CONSTRUCTION: Solder copper pipes into a square (6”) 1/8” tolerance. 5 7/8≤ x ≤ 6 1/8 ELECTRONICS: Resistor color code: Red, Black, Orange, Gold Yellow, Green, Brown, Silver 20,000 ± 5% 450 ± 10% 21,000 19,000 495 405 WELDING: 1” top view of box Center the hole on the plate 1 1/8” ± 1 1/16” 4” 1 1/16” to 1 3/16” 1 1/16” ≤ x ≤1 3/16” 5”

9. L3.2.1 Determine what degree of accuracy is reasonable for measurement in a given situation; express accuracy through use of significant digits, error tolerance, or percent of error; describe how errors in measurement are magnified by computation; recognize accumulated error in applied situations. CONSTRUCTION, ELECTRONICS, WELDING: Tolerance example: Gap (in mm) |x+0.5| < 0.5 -0.5 < x+0.5 < 0.5 = -1.0 < x < 0

10. L1.3.1 Describe, explain, and apply various counting techniques (e.g., finding the number of different 4-letter passwords; permutations; and combinations); relate combinations to Pascal’s triangle; know when to use each technique. CONSTRUCTION: How many different combinations of 2 bits, 1 hammer, and 1 drill can be chosen? The shop has: 40 Drill Bits 12 Hammers 40C2 * 12C1 * 10C1 = 112,320 Combinations 10 Drills ELECTRONICS: How many different combinations of 2 resistors, 1 capacitor, and 1 inductor? The shop has: 40 Resistors 12 Capacitors 40C2 * 12C1 * 10C1 = 112,320 Combinations 10 Inductors WELDING: How many different combinations of exactly 2 pieces of metal, 1 brush, 1 hammer, and 1 hood can be chosen? 40 Pieces of Metal 40C2 * 18C1 * 12C1 * 10C1 18 Brushes 12 Chipping Hammers using a calculator: 10 Welding Hoods 780 * 18 * 12 * 10 = 1,684,800 Possible Combinations

11. S1.1.1 Construct and interpret dot plots, histograms, relative frequency histograms, bar graphs, basic control charts, and box plots with appropriate labels and scales; determine which kinds of plots are appropriate for different types of data; compare data sets and interpret differences based on graphs and summary statistics. CONSTRUCTION, ELECTRONICS, WELDING: Home Values 40K 60K 90K 110K 150K 50K 90K 130K 40K 150K Median When remodeling a home, keep costs at the low end of the box and do not exceed the upper value.

12. S1.2.1 Calculate and interpret measures of center including: mean, median, and mode; explain uses, advantages and disadvantages of each measure given a particular set of data and its context.. CONSTRUCTION, ELECTRONICS, WELDING: Looking at the home prices from S1.1.1 write a scenario that would best fit selecting the mean. Repeat for median and mode. Example: Choose the mean if determining the average cost of a 1400 sq. ft. house with similar configurations such as 2 bedroom 1 ½ bath with 2 car garage. Choose the mode to determine what size (sq. ft.) of homes that were selling the most in a subdivision or particular school zoned area. Choose the median to determine the average house price in a subdivision or section of a city.

13. A1.1.4 Add, subtract, multiply, and simplify polynomials and rational expressions (e.g., multiply (x-1) (1-x2+3); simplify (9x-x3)/(x+3)). CONSTRUCTION: [2x2 – 6x + 4](x-1) 2x3 – 6x2 + 4x – 2x2 + 6x – 4 2x3 -8x2 + 10x – 4 ELECTRONICS: RT = (R1*R2)/(R1+R2) Let R1 = 2x and R2 = 6x RT = (2x*6x)/2x + 6x) RT = 12x2 / 8x RT = 3/2 x WELDING: [(5-2x) (4-2x)]x [20-8x-10x+4x2]x [20-18x+4x2]x 20x-18x2+4x3

14. A1.2.5 Solve polynomial equations and equations involving rational expressions (e.g., solve -2x(x2+4x+3) = 0; solve x-((1/(x+6)) = 3, and justify steps in the solution. CONSTRUCTION: V = L*W*H 36 = (2x-2) (x-2) (x-1) 36 = [2x2 - 2x - 4x +4](x-1) Foil binomials 36 = [2x2 – 6x + 4](x-1) Combine like terms 36 = 2x3 – 6x2 + 4x – 2x2 + 6x – 4 Distribution property 36 = 2x3 -8x2 + 10x – 4 Combine like terms 0 = 2x3 - 8x2 + 10x + 32 Subtraction property ELECTRONICS: RT = (R1*R2)/(R1+R2) Let RT = 72 ohms, R1 = 2x and R2 = 6x RT = (2x*6x)/2x + 6x) Substitution Property RT = 12x2 / 8x Multiplication Property and combine like terms 72 = 3/2 x Division Property of Exponents and Reducing Fractions X = 16 ohms Division Property of Fractions WELDING: V = L*W*H 6 = [(5-2x) (4-2x)]x 6 = [20-8x-10x+4x2]x Foil Binomials 6 = [20-18x+4x2]x Combine like terms 6 = 20x-18x2+4x3 Distribution property 0 = 4x3-18x2+20x-6 Subtraction property

15. A3.1.2 Adapt the general symbolic form of a function to one that fits the specifications of a given situation by using the information to replace arbitrary constants with numbers. CONSTRUCTION: Find the number of studs in a 37’ wall x = L*.75+1 x = 37*.75+1 X = 29 ELECTRONICS: Resonant Frequency Formula f = 1/(2лLC) Determine the frequency in KHz given an 330 µH Inductor and a .22 µF Capacitor. f = 159.2/330*.22 f = 18.68 KHz WELDING: c2 = a2+b2 52 = 42+22 25 = 16+4 25 > 20 Angle is obtuse 5 4 ? 2

16. A1.1.7* Transform trigonometric expressions into equivalent forms using basic identities. ELECTRONICS: TAN = Xc/R SIN = Xc/Z COS = R/Z Tp = E*I*COS Z Xc R A2.2.4* If a function has an inverse, find the expression(s) for the inverse. ELECTRONICS: W = 2 f T = 1/f f = 1/T Xc = 1/(2 f C) XL = 2 f L FR= 1/(2л LC)

17. A2.9.1 Write the symbolic form and sketch the graph of simple rational functions. CONSTRUCTION: Build a wooden box of 1” material. Outside dimensions are L = 2*H and L = 2*W. Total volume = 36 square inches. V = L*W*H 36 = (2x-2) (x-2) (x-1) x x 2x ELECTRONICS: WELDING: Using a graphing calculator: Volume = 6 and x = 1 V = L*W*H 6 = [(5-2x) (4-2x)]x 6 = [20-8x-10x+4x2]x 6 = [20-18x+4x2]x 6 = 20x-18x2+4x3 0 = 4x3-18x2+20x-6 x x x x 4” x x x x 5”

18. Embedded Algebra - Construction A2.9.1 Using Rational Functions in Construction

19. Embedded Algebra - Construction A2.9.1 Using Rational Functions in Construction Do not lose this sheet! You must build a box for a customer that will hold exactly 162 cubic inches of sand. The box will be made from ½ inch material, with 4 sides and a bottom, but no top. The length must be twice the width, and the height will be the same as the width. You will first use algebra to determine the size of the box. Next you will build the box. Finally you will test the size of the box with sand. Do your math on this page and turn this in with your box.

20. Embedded Algebra - Construction Evaluation: Safety: 5 Math: 15 Sand Test: 10 Measurements: 10 Square: 5 Cuts: 5 Total: 50 points (Test Grade)

21. Embedded Algebra - Construction

22. Embedded Algebra - Construction

23. Embedded Algebra - Construction

24. Embedded Algebra - Construction

25. Embedded Algebra - Construction

26. Embedded Algebra - Construction

27. Embedded Algebra - Construction

28. Embedded Algebra - Construction

29. Embedded Algebra - Construction

30. Embedded Algebra - Construction And they all lived happily ever after...

31. References • Moodle Sites • www.tbaisd.k12.mi.us • www.moodle2.resa.net/ww • WDFCTC Website http://ford.wwcsd.net/ • Presenter’s Emails williamskr@wwcsd.net koelzerm@wwcsd.net