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Vectors
The first lesson on What is a Vector follows. After it, see the
following four lessons .Some provide a coordinate-free view. The assumption of coordinates and the properties of real
numbers provide the simplest starting point for a thought-based development of
vectors and their properties.
Definition
With respect to a rectangular coordinate system, a pair of real numbers [a,
b] determines a vector of length r = sqrt(a2+b2).
The numbers [a, b] provide the components or direction numbers of the vector.
In that rectangular coordinate system, the vector can be represented in
standard position by an arrow drawn from the origin of the coordinate system to
a point with rectangular coordinates [a,b] = (r, q)
for some angle q with 0 < q
< 360 degrees. Here (r, q) denote the
polar coordinates of the point [a,b].
More generally in the coordinate plane, a vector may represented by any
arrow which begins at one point [c,d] and ends at another point [e,f] = [c+a,
d+b].
When we speak of a vector v = [a,b] = (r, q) only
its length and direction matter. All arrows which begin at one point at one
point [c,d] and ends at another point [e,f] = [c+a, d+b] represent the
vector.
Conversely, the arrow which begins [c,d] and ends
at t [e,f] represents the vector with components or
direction numbers [a,b] = [e,f] - [c,d]
But this pair does not represent a point, it represents an arrow which
can be drawn any where in the plane. See below.
Numerical Examples
(A) The vector with components [4,7] can be represented by a vector which
begins at [4,5] and ends at [8,12] = [4+4, 5+7].
If the components of the vector were not given, we could get
them from the computation [8,12] -[4,5]
(B) Here is an example of a single vector [-3,5] drawn in two
positions. The graphical representation with tail at the origin and head at the
point [-3,5] shows the the vector in standard position.
The second arrow goes from a tail at [5,1] to a head at [2,6] = [5,1]+ [-3,5]
A vector [a,b] is determined by choosing a head point [c,d] and a tail
point [e,f]. Then a = c -e and b = d - f.
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www.whyslopes.com
Analytic Geometry
& Functions
[#] shows no. of lessons.
Up
Equal Sign Use/Abuse
Real Numbers
Simplify Square Roots
Absolute Value |x|
Say More Than
Theory of Inequalities
|x| Eq'ns & Inequalities
Rectangular Coords 1, 2&3D
Distance Formulas - 1, 2 & 3D
Shortest Path
Triangle Inequality
Point Addition & Real Multiples
Polar Coordinates
Radians
(A) Vectors
(A) Coordinate Arithmetic
(A) Navigation on Maps
(A) Addition Geometrically
(PT) Translations
(PT) Dilatations
(A) Rotation
(C) Complex No. Intro
(C) Distributive Law - Applied
(C) Properties
(C) Complex Conjugates
(C) Pythagoras Thm, New Proof
(T)Trig on Unit Circle
(T) Complex No.s &Trig
(T) cis or exponential FNS
(T) Dot & Cross Products
(T) Cosine Law
(T) Pythagoras Converse
Section Entrance
Links
More Links
learn more
Two Treatments of Geometry
BIG Table of Contents
conic sections briefly
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For Parents & Teachers: Speaking
Skills, Reading
& Writing,
Preparing for Science, ends,
values and methods for work and study, parent- friendly mathematics booklets for ages 4-14.
-
Math
Education
Essays (opinions,
possibilities, references)
- POMME, a two
level program for future skill development in
schools and colleges worldwide. Address content &
motivation gaps with ends, values & methods for skill
development to say which way to go, how and why. -
Present Day Curriculum:
(A) Secondary
I Mathematics
consolidate fractions and measurement, skills and
sense consolidation,
(B)
Secondary II Mathematics
year of algebra and proportionality
(C) See too the following:
- Arithmetic
& Number Theory Practices (horribly put, but
useful)
- Algebra and
Logic SubProgram
(well put, extremely useful)
For Avid Readers in School & Out -
Online Books
1. Elements of
Reason. 1996
1A. Pattern
Based Reason 1995
1B. Math
Curriculum Notes 1996
2. Three
Skills for Algebra 1995
3.Why
Slopes & More.Math
1995
Tour their forewords.
Calculus Prep or Help: See Volumes 2 & 3,
and this bigger
Calculus
Guide.
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Senior
High School &
Calculus Students
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Free Live Lesson
- Operations with Decimals - Comparison, Subtraction and Long Division
- Click here
to attend.
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For Senior
High School Mathematics & Calculus
Intro to Solving
Linear Equations
- a different paths for junior and even senior high
school students.
5
wordy Logic
Chapters
4 curious Algebra
Chapters
Words before & besides symbols. A Key Algebra
forward & backwards Chapter
First Calculus
Preview (1st intro)
Four Calculus
Chapters
(2nd intro)
Intro to Complex
Numbers (long)
Intro to Mathematical
Induction (romantic & wordy at first)
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Many More Topics
1. Decimal
Arithmetic Reference!
2. Integers
- Intro to Signed No.s
3. Fractions
- fully explained.
4. Fractions
with Units
5. Number
Theory,
6. Solving
Linear Equations
7 Formulas
Use Forward & backwards -
8. Proportionality,
Back- & For-wards.
9. Logic
Chapters:
10. Euclidean-Geometry
11. Slopes
& Equations of Straight Lines. (Take
I. See take II below)
12. Why
Study Slopes.
13. Maps,
Plans, Similarity & Trig,
(Take II included here)
14. Quadratics:
Starter lessons
15. Polynomials:
Starter lessons
16 Why
Factor Polynomials:
17 Functions
- Forwards & Backwards.
18. Exponents,
Radicals & logs.
19. Complex
Numbers before trig (new advance/ starter lesson)
20. DC
Electric
Circuits Etc
21. Real
Analysis
22. The
Olde Complex No, Trig
& Vector Section.
23. More
Calculus Stuff
- written after Volumes 2 and 3.
More For Instructors
-
Education
Essays
(opinions,
possibilities, references)
- POMME, a two
level program for instruction K1-14
- Math & Logic How-TOs
1. Arithmetic
2. Algebra
3. More Algebra
4. Beginner Geometry
5. More Geometry
6. Calculus
7. Show Work or Logic
These may be too dense for students.
Level I Material: New Stuff
Time and Date Matters
Level I Arithmetic.
Money Matters
Measurement Matters
Matters of Chance (Risk Control)
Logic
Chapters
(leave what's not clear in Level I to Level II)
Using/Making Maps and Plans.
(A variant of
Maps,
Plans, Similarity & Trig, to
appear here).
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Skill Development Tips
For All
Standards: (A) Take
care to avoid the domino effect of errors & approximations; (B) Do and
record steps in an manner that allows skill mastery to be seen or
corrected. Anything represent substandard work.
Key Numerical Methods
- To multiply signed numbers, prefix the product of their signs to the product
of their lengths or unsigned parts. The product is negative if the no of
negative sign in it is odd.
- To add signed numbers with like signs, prefix the common sign to the sum of the
lengths.
- To add signed numbers with opposite signs, prefix the sign of the longest to
the difference: length of longest minus length of shortest.
- Should we study roots and powers of real numbers with formulas involving exponential and log.
- How does adding and multiplying points in the plane and rotating the midpoint
of a line segment lead to mastery of complex numbers and the thought-based
development of their properties, all before trig?
- New Axioms for High School Mathematics: In accounting, totals of assets
and debts may be calculated by dividing the assets and debts into
non-overlapping (disjoint) groups and then adding subtotals. In general, sums
(and products) of counts and numbers, positive and negative numbers
included, can be obtained by adding subtotals (and multiplying
subproducts, respectively). These practices may be cast as axioms in
secondary mathematics. Then operations on polynomials are easily implied
justified by these "axioms" and the geometric introduction of column
methods for expanding a products of two sums. While set theory in pure
mathematics may imply the above axioms in university mathematics programs
instruction, an earlier and more accessible explanation based on easily accepted
and understood geometric and counting practices derivation of the above
axioms is possible at the high school for students heading for college programs
in science.
In Volume 2: Prep for Calculus
- What is the difference between saying A if B and saying A if and
only if B. Being aware of the difference will sharpen ye wits.
- What is a chain of reason?
-Are your arithmetic skills OK?
-Have words been missing in the introduction of algebra?
- Can ye talk about numbers & quantities varying apart from or before the
use of letters & functions?
- Do ye know about the forward & backward use of formulas?
-Contrapositive: is that backward use of A if B?
-What is a variable x? Answer before speaking of function f(x) = x.
-What a twist! There are no rules of algebra for subtraction and division. But
if you replace them by addition of -x and multiplication by 1/x, rules of
algebra (properties of arithmetic) can be used.
In Volume 3: Calculus Slowly?
-Why are slopes studied and polynomials factored in high school?
- Volume 3 suggests how to ease or delay algebra shock in
calculus *& beyond. In Calculus, derivatives and integrals introduced and defined by limits, but calculated
without when possible by using differentiation rules forwards and backwards. The
second site calculus section may help in differential calculus.
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