Tuesday, January 29, 2013

Geometry: 1/28 thru 2/1

Monday - 1/28

HW: 7-64, 66, 67, 68, 70
USING CONGRUENT TRIANGLES IN A PROOF
  • Every statement needs a reason
  • Reasons can be:
    • Given
    • Properties (i.e. reflexive)
    • Definitions (see notes below)
    • Theorems/ "facts" that we know to be true (i.e. vertical angles are congruent or CPCTC)
  • If the proof involves congruent triangles, then you need to find out how you can prove that they are congruent, and IMMEDIATELY after that we can say CPCTC which means corresponding parts of congruent triangles are congruent. (i.e. a pair of sides or angles in the triangle)

Monday's Notes can be downloaded here:
https://dl.dropbox.com/u/40810525/Definitionsquads.docx
These are definitions of quadrilaterals. Definitions can be used in proofs as reasons.

Tuesday - 1/28
HW: 7-85 (see hint below)





Algebra 2/Trig: 1/28 thru 2/1

Monday - Parabolas Centered at the Origin
Page 576: 9, 11, 15-20 all

Tuesday - Parabolas not Centered at the Origin
Page 576: 10, 12, 13, 23-31 odd


















Wednesday - Conics Review

Thursday

Friday

Algebra 2: 1/28 thru 2/1

Monday
Rational Exponents Worksheet

Tuesday
Review Domain, Asymptotes, Intercepts

Wednesday
Operations with Rationals

Thursday
Solving Rationals and Radicals

Friday
Rationals & Radicals (Chapter 8) TEST

Wednesday, January 23, 2013

Semester 2: Week 1 Geometry

Wednesday - 1/23

Introduction to Proofs!

HW: 7-46 and 47













Thursday - 1/24
7-49, 52, 56

Friday - 1/25

2 Proofs in class: 7-63 and 65
7-61 independent practice


Friday's (1/25) Notes can be downloaded here: https://dl.dropbox.com/u/40810525/REASONS%20TO%20USE.docx
These are some REASONS that we collected that can be used to prove various things

Semester 2 Week 1: Algebra 2/Trig

Wednesday
More Ellipses!
Page 591: 15, 19, 23, 25, 33, 37



















Thursday
Hyperbolas
601: 7, 11, 13-21 odd

Friday
Questions on the half-sheet - Ellipses and Hyperbolas

HYPERBOLAS VS. ELLIPSES

Ellipses

  • the a-value is the BIGGER value
  • whichever one it is under (x or y) tells you whether it is horizontal or vertical
  • a^2 - b^2 = c^2
Hyperbolas
  • the a-value is the FIRST one that you see
  • if x comes first it is horizontal, if y comes first it is vertical
  • a^2 + b^2 = c^2 (careful, different than ellipses formula)

Semester 2 Week 1: Algebra 2

Wednesday

Solving Rationals
517: 9-17 odd

Domain of Radicals
525: 11-17 odd

Thursday
526: 37-51 odd

Friday
542: 11-23 odd
Solving Radical Equations

Monday, January 14, 2013

Geometry Semester Review

LINKS TO HELPFUL DOCUMENTS FOR CUMULATIVE TEST


Topics on Final: Early material (see true/false and review notes), angle relationships & related vocabulary (supplementary/complementary/congruent), area formulas and finding area of trapezoid by creating squares and triangles, and Triangles (30-60-90 and trig functions sin cos tan), triangle similarity and triangle congruence (see below)





IN CONGRUENT FIGURES, SIDES AND ANGLES ARE BOTH THE SAME

5 Ways to PROVE Congruence:    (congruent means "the same")   think of these as checklists

  1. SSS = all sides are the same
  2. SAS = two sides are the same and the angle BETWEEN them is the same
  3. ASA = two angles and the side BETWEEN them is the same
  4. AAS = two angles are the same and an angle NOT between them is the same
  5. HL = in right triangles the hypotenuse and one leg is the same


Ambiguous Case (SSA) does NOT PROVE CONGRUENCE = this is when you have two sides that are the same and a non-included angle. If the angle was in between the two sides, it would be SAS and the triangles can be proven to be congruent.

IN SIMILAR FIGURES, SIDES ARE IN PROPORTION AND ANGLES ARE THE SAME.

3 Ways to PROVE Similarity:   (meaning same shape but different sizes)

  1. SSS = all three sides are IN PROPORTION
  2. AA= two (so really three) angles are THE SAME
  3. SAS = two sides are IN PROPORTION and the angle between them is the same




Algebra 2 and Algebra 2/Trig - Cumulative Test Review


Ms. Liefland                                                            Algebra 2/Trig Semester Review – Test Wednesday

Chapter 1
-       Looking at a table to tell if a relationship is linear
-       Writing equations of lines
-       (Solving absolute-value equations and knowing their graphs)
-       Finding domain and range of equations

Chapter 2
-       Finding the inverse of a function
-       Reverse x and y
-       Re-solve for y
-       Operations with functions (i.e. f+g, fog)
-       Properties of Exponents
-       Piecewise functions
-       Transformations of graphs and functions

Chapter 3
-       System of equations (vocab 3.1)
-       Solving systems using substitution, elimination
-       Graphing linear inequality
-       Graphing system of linear equations
-       Parametric equations and “eliminating the parameter” (3.6)

Chapter 5
-       Writing standard form of a quadratic equation
-       Finding the vertex of a quadratic function, knowing whether it opens up or down
-       Solving quadratic equations using inverse operations (step by step)
-       Factoring quadratic expressions and using zero-product property to find zeros = set factors equal to zero
-       Writing a function in vertex form
-       Using quadratic formula
-       Using the discriminant to determine the number of real roots
-       The part of the quadratic formula under the square root
-       If it is positive: two real roots
-       If it is negative: two imaginary solutions
-       If it is zero: you have a double root
-       Solving quadratic equations with imaginary solutions
-       Using operations with imaginary numbers
-       Writing a quadratic equation from three points (system of equations for coefficients)

Chapter 6
-       Exponential growth or decay?
-       Changing between logarithmic form and exponential form
-       Condensing/expanding logarithmic equations
-       Solving log equations
-       Using the natural logarithm base “e”

Chapter 7
-       Classify the polynomial by degree
-       End behavior (arrows)
-       Finding zeros of a polynomial = knowing that they are x-intercepts
-       Synthetic division
-       Knowing that when you divide by a factor and get remainder 0, then it is a factor. Otherwise, it is not a factor

Chapter 8
-       Finding vertical asymptotes and horizontal asymptotes of rational equations



Chapter 1 Review – Linear Representations
Page 77: 1, 2, 8, 10, 12, 25
#1: not linear – quadratic!! – the y terms are squares
#2: linear – x and y have a constant change
#8: y = 2x + 6  (use point-slope form first)          y-y1 = m(x-x1)  with point(x1,y1)
#10: find slope first à y = -12x + 41
#12: y = (3/2)x + (33/2) – perpendicular lines have NEGATIVE RECIPROCALS
#25: x>1 and x<4 – graph the intersection point with “and” – between 1 and 4


Chapter 2 Review – Numbers and Functions
Page 147: 10, 15, 19, 22, 25, 28
#10:     3 / (r * s3 *t)    - take all of the terms with a negative exponent and move them all DOWNSTAIRS
#15:    Not a function!!! Same x leads to more than one y-value – this would violate the vertical line test
#19: = 3x – 2
#22: (g o f)(3) = 4              I write this instead as g(f(3)) à evaluate f(3) then plug to g
  • Take 3 and plug it in to f, and something comes out
  • Take that answer and plug it in to g, and you get the answer 4
#25: reverse all of the coordinates to find the inverse, YES it is a function
#28:  the inverse is plus/minus the 4th root of (x+3); this is not a function
  • Solving for the Inverse: Switch x and y. Solve for y.
  • NOTE: how to tell if a graph is the graph of a function: vertical line test
    • How to tell if the INVERSE of a graph is a function: horizontal line test


Chapter 3 Review – Systems of Linear Equations and Inequalities
Page 207: 3, 8, 9, 19
#3: using substitution, you get intersection point (5,3)
#8: has no solution!!!
#9: from elimination, you get intersection point (3, -4)
#19: Eliminate the parameter!! – follow the steps below or solve both for t and set these equal
·        Steps for eliminating the parameter in #19                                         (essentially substitution)
1.       Your equations are x = t - 4 and y = 2t - 11                    
2.       Solve one of them for t.
So t = x+4
3.       Plug that into the other equation
so y=2(x+4) – 11
4.       Simplify into your answer…. Y = 2x – 3




Chapter 5 Review – Quadratic Equations
Page 345: 2, 4, 5, 9-12 all, 18, 22, 23, 25,     [[30 Trig Only)]]

2. a=-5 , b=-30, c=35
4.  +/- 3rt(3) or +/-5.2
5.   7 +/- 2rt(3)
9. 0 and 9
10. 4 and -4
11. ½ double root à remember how this looks GRAPHICALLY
12. -2 and 5
18. 1 or -5
22. 0 real solutions – REMEMBER imaginary solutions COME IN PAIRS
23. 2
25. -4 + 4i

30. create three equations by using a coordinate point as x and y for three equations in standard form
then solve for the coefficients
à solve the system of equations

Chapter 6 Review – Exponential and Logarithmic Functions
Page 415: 3, 4, 6, 7, 15, 16, 17, 20, 21, 24
3. growth because (1.01) is the “multiplier” and it is bigger than 1
4. growth for the same reason, if it was less than one things would be getting smaller and it would be decay
6. decay because (.25) is the multiplier and its less than one
7. taking out interest from cumulative test
15. v=7 because 7 to the third power is 343
16. v=3 because 9 to third power is 729
17. v=7776 because 6 to the 5th power is 7776
20.   32
21.  2 because 6 to the 2nd power is 36 or change of base formula
24.  5404.7   because 4 to the power of 6.2 is that answer

Chapter 7 Review - Polynomials
Page 471: 8, 9, 16, 21, 22, 27
8. up; up = end behavior depends on the DEGREE and whether the leading coefficient is positive or negative
9. up on left; down on right
16. (5x^2)(x-6)(x+6)
21. (x+3) is what is left over…on the test you will be able to use synthetic div.
22.  –x^2 + 3x -2 is what is left over after dividing
27. variable substitution = solve like regular generic rectangle
but use x-squared instead of x in your factors
so your factors are  (x^2 – 4) and (x^2 – 2) and set each factor equal to zero
so your solutions are plus/minus 2 and plus/minus rt. 2




Chapter 7 – Polynomials Notes

Ø  “The degree” of the polynomial = the highest exponent that you see

Ø  The number of solutions = the degree of the polynomial

Ø  Just like with quadratics, we SET THE FACTORS EQUAL TO ZERO to get solutions.

Ø  Step “Zero” with factoring should always be to SCAN and see if there is something you can pull out of EVERYTHING – that becomes a factor

REMEMBER: Imaginary solutions COME IN PAIRS.
For example a 2nd degree (parabola) can have 2 real or 2 imaginary solutions.
A 3rd degree function can have either 3 real solutions, or it can have 1 real solution and 2 imaginary solutions.
·         List the possibilities of real/imaginary combos for a 5th degree function:

Ways to Factor When the Degree is Two (i.e. quadratic or parabola):
·         Regular “generic rectangle” factoring
·         Quadratic Formula (especially if you suspect there are IMAGINARY solutions)
·         Difference of Squares
·         Factor by grouping

Ways to Factor When the Degree is More Than Two:
Every time you divide a polynomial by a factor, the degree decreases by one. If you can “knock” it down into a quadratic, you can always get the last two solutions (see above)
·         Step “zero”: Scan to see if there is something you can pull out of everything. That becomes a factor.
·         Factor by grouping
·         Sum/Difference of Squares
·         “Variable Substitution”
·         Use the rational roots theorem to get a “pile” of possible rational solutions
·         You can always use a graphing calculator to FIND YOUR SOLUTIONS FOR YOU (real ones):
o   Graph the function in the  y=    window
o   Press 2nd button, then CALC/trace button
o   Go to “zeros
o   Go to the right of the function, press enter. Go to the left of the solution, press enter. Press enter one more time.
o   The solution (x-intercept) appears along the bottom of the screen.

Friday, January 11, 2013

Algebra 2: January 7-11th, 2013

Monday
Notes on Rationals
495: 11-16all, 17, 18, 19, 23, 26, 27

Tuesday
Multiplying/Dividing Rationals
502: 9-27 odd

Wednesday
Adding/Subtracting Rationals
509: 11-27 odd

Thursday
Review Rationals
547: 5, 6, 7, 9, 10, 13, 16, 17, 21, 25

Friday
Quiz: Rationals

Algebra 2/Trig: January 7-11th, 2013

Monday: Introduction to Conics
567: 10-21 all, 39, 41, 43

Tuesday: Circles!
Page 1 (all) and Page 2 (odd)

Wednesday: Ellipses
Page 591: 9-14 all

Thursday: Review for Quiz

Friday: Quiz: Circles and Ellipses

Wednesday, January 9, 2013

Geometry - CIRCLES (January)

Circles worksheet Page 1 and 2 (scroll down for answer key) can be downloaded here:

https://dl.dropbox.com/u/40810525/Equations%20of%20Circles.pdf

~Strategies~

To write the equation of a circle in standard form, you need to know two things:
- Center coordinates (h,k)
- Radius

If you know the equation of a circle in standard form, you can learn two things:
- Center coordinates
- Radius

If you know the coordinates of two endpoints of the diameter:
- You can find the distance between them. This would be the diameter.
- If you cut the diameter in half, you get the radius.

If you know the coordinate of a center and a point on the circle:
- You can find the distance between them. This would be the radius.

If a line is tangent to a circle, it means that it just barely "scrapes" the circle so that it touches it in one place. The distance between the tangent line and the center of a circle would be the radius.