Learn Number, Learn Math

Reflection For thevideomathtutor.com

By Luis Anthony Ast

Basic Mathematics 4

PROPERTIES OF NUMBERS

There are so many ways to introduce mathematics. An example is by video tutorial. By this media, students can learn Mathematics easily. Here is the reflection I made from the video that I got in my English course several last weeks. Enjoy, please :D

The Reflexive Property of Equality

A number is equal to itself.

Example:         

If given a number A, then it means that A=A

Then another example is 2=2, 3=3 and soon.

The Symmetric Property of Equality

if one value is equal to another, then that second value is the same as the first.

Example:

1.      If given A=B, so we can move each number in opposite side become B=A,

2.      Then when we do an algebraic equation then we find the equation is 3=X. it doesn’t matter. But  in the final answer we can write X=3. Cause on the symmetric property, if we change to another side it will be the same.

The Transitive Property of Equality

If one value is equal to a second, and the second happens to be the same as a third, then we can conclude the first value must also equal the third number.

Example:

1.      If given A=B and B=C, so we can conclude that A=C.

The Substitution of Property

If one value is equal to another, then the second value can be used in place of the first in any algebraic expression dealing with the first value.

Example:

1.      If given A=B, the we subtract each side to equal values, for example C,

Then A-C=B-C

The Addictive Property of Equality

We can ad equal values to both sides of an equation without changing the validity of the equation.

Example:

1.      If A=B

Then A+C=B+C

Or the other type  C+A=C+B

The Cancellation Low

Example:

1.      The original form is A+B,

Then add each side by C, A+C=B+C

If we want to cancel the last addition, we can use this cancellation low.

Become: A+C-C=B+C-C

The Multiplication Property of Equality

We can multiply equal values to both sides of an equation without changing the validity of equation.

Example:

1.      If given A=B, then we multiply each side to C, so it will always have an equal result. AC=BC.

2.      Then, the form above also have the same result with the form CA=CB.

The Cancellation of Multiplication

Example:

1.      The original form is A=B

Then multiply each side by C, AC=BC

If we want to cancel the last multiplication, we can use this cancellation low.

Become: AC/C=BC/C è A=B

Zero Factor Property

If two values that are being multiplied together equal zero, then one of the values, or both of them must equal zero.

Example:

1.      Let AB=0

From that, we can expect that it is possible that A=0 or B=0 or both A and B are 0.

The Law of Trichotomy

For any two values, only one of the following can be true about these values:

-          They are equals (A=B)

-          The first has a smaller value than the second (A<B)

-          The first has a larger value than the second (A>B)

Example:

Given number A and B,

So the possibility is :

a.       A=B

b.      A>B

c.       A<B

The Transitive Property of Inequalities

If one value is smaller than a second, and the second is less than a third then we can conclude the first value is smaller than the third.

Example:

Given A<B and B<C,

So it means that A<C

Property of Absolute Value

Example:              

1.      |A|≥0, it means that |-A|=|A|

2.      |AB|=|A||B|

3.      |A/B|=|A|/|B|, B≠0

CLOSURE

The Closure Property of Addition

When you add real number to other real number, the sum also real number. Addition is a ‘closed’ operation.

Example:

A+B= a real number

The Closure Property of Multiplication

When you multiply real number to other real number, the sum also real number. Multiplication  is a ‘closed’ operation.

Example:

AB= a real number

COMMUTATIVE

The Commutative Property of Addition

It doesn’t matter the order in which numbers are added together. 

If given A+B, we can switch into another side become B+A

The Commutative Property of Multiplication

it doesn’t matter the order in which number are multiplied together.

If given form AB, it will be the same with BA.

ASSOCIATIVE

The Associative Property of Addition

When we wish to add three or more numbers, it doesn’t matter how we group them together for adding purposes. The parentheses can be placed as we wish.

For example, for adding A+B+C we can modified parentheses into (A+B)+CèA+(B+C). the result will be same.

The Associative Property of Multiplication

When we wish to multiply three or more numbers, it doesn’t matter how we group them together for adding purposes. The parentheses can be placed as we wish.

For example, for multiplying  A,B, and C we can modified parentheses into (AB)CèA(BC).

IDENTITY

The Identity Property of Addition

There exist a special number, called the ‘addictive identity’. When added to any other number, then that other number will still ‘keep its identity’ and remain the same.

if given number A, then add to 0, so the result is the number A itself. Symbolically we can write A+0=A.

or we can also change the form into 0+A=A. And the result will be same.

The Identity Property of Multiplication

There exist a special number, called the ‘multiplication identity’. When multiplied  to any other number, then that other number will still ‘keep its identity’ and remain the same.

For example if we have number A, then we multiplied to 1, so the result is number A itself. Symbolically we can write A.1=A

or we can also change the form into 1.A=A. And the result will be same.

From identity, we can conclude that:

-          0 is a unique  number  in addition

-          1 is a unique number in multiplication

INVERSE

The Inverse Property of Addition

For every real number, there exists another real number that is called its opposite, such that, when  added together, we will get the addictive identity (the number zero).

For example the number is A. if we add A with the opposite number of A, that’s –A, so the result will be 0. Symbolically we can say A+(-A)=0

Or we can change the form into (-A)+A=0, and the result will be same.

The Inverse Property of Multiplication

for every real number, expect zero, there is another real number that is called its multiplication inverse, or reciprocal, such that, when multiplied together, we will get the multiplicative identity (the number one).

Example:          A.1/A=1

1/A.A=1

DISTRIBUTION

Distributive Law of Multiplication Over Addition

Multiplying a number by a sum of numbers is the same as multiplying each number in the sum individually, then adding up our product.

Formula:

If given A(B+C), how to solve it? We can distribute it. A goes to times by B, then A also goes to times by C. or symbolically we can say in the form  A(B+C)=AB+AC.

Or for another form we can write into (A+B)C=AC+BC. It doesn’t matter because the result will be same.

Example:

1.      If given 5(7+3), using distributive law, determine the result.

Solution:

5(7+3) =5(10)

=50,

Or

            5(7+3) =5(7)+5(3)

                        =35+15

                        =50

The Distributive Law of Multiplication Over Subtraction

Formula:

A(B-C)=AB-AC. That formula means if we have A(B-C), we can distribute it, A times B subtract A times C.

The General Distributive Property

In general distributive property, we have the general formula:

a(b₁+b₂+b₃+…+b_n)     =          a b₁+a b₂+a b₃+…+a b_n

for example:

2(1+3+5+7)     =          2.1+2.3+2.5+2.7

                        =          2+6+10+14

                        =          32

The Negation Distributive Property

If you negate (or find the opposite) of a sum, just ‘change the signs’ of whatever is inside the parenthesis.

Formula:

-(A+B)=(-A)+(-B)= -A-B

QUIZ

1.      Find the inverse of the number bellow

a.       -5   = 5

b.      2/3 = -2/3

c.       -1   = 1

d.      0    = 0

2.      Do this question using the property above

a.       –u+u          = 0

b.      8x7                        = 7x8

c.       5(w-y)        = 5.w-5.y

d.      -3+(6+2)    =(-3+6)+2

e.       Z                = Z

f.        a≤/b, a≠b, therefore a˃b

g.       m(1/m)       = 1

h.       since root of 3 and e are real number, so if root of 3 subtract e, the result will be a real number.

i.         The form 2+x² have the same result with the form x²+2.

j.        (Z+7)+2=z+(7+2)

k.      (y)(1)         = y

l.         If x=y and y=5, so the value of x=5

m.     2+0                                    = 2

n.       –(x+2)                    = -x-2

o.      (ab)c                      = a(bc)

p.      [2+(x-1)]y              = 2y+(x-1)y

q.      (1/x²+4)( x²+4)       = 1

r.        (x+y)+z                  = z+( x+y)

s.       (1) (1)                    = 1

t.        5+w+(-w)              = 5

u.       (2a)(bc)                  = 2(ab)c

v.       |-2/3|                      = |-2|/|3|           = 2/3

w.     1.(y-z)                    = y-z

x.       X+5                                   = 5+x

y.       pq                          = qp

z.       2y+8                      = 8+2y

aa.   2-ab                       = ab-2

bb.  3+(w+z)                 = (3+w)+z

cc.   -2(x+3)                  = (-2.x)+(-2.3)=-2x-6

dd.  –(2y-9)                  = -2y+9

Video As The Media For Studying Math

Try to Understand Math trough Video 

NOTATION FOR DERIVATIVE

Before we learn about the notation for derivative, there is a question, what is derivative? Derivative can be told as the slope of tangent at point. Then, when we take a look at the formula derivative  can be said as the change of y over the change of x . Then, derivative can be symbolize as f^I(x) or y^I or dy/dx.

We can symbolize the formula: f^I(x)= y^I= dy/dx= change in y’s/change in x’s

Then, when we want to find the slope of   two points we can use this formula:

f^I(x)      =change in y’s/change in x’s

=y2-y1/x2-x1

=rise/run

Another way to get derivative, we can use limit function. For looking for f^I(x), we take limit h approach to 0 for f(x+h)-f(x)/h. in this case, h is the amount interval.

  

            Example:

1.      Given f(x)=4x²-8x+3. Find f¹(2)!

Solution:

To find f^I(x), first we substitute x=2 in 4x²-8x+3, then we substitute x=(2+h) in 4x²-8x+3.

F(2)=3

F(2+h)=4h²+8h+3

Then:

f^I(x)= lim h->0  f(x+h)-f(x)/h

      = lim h->0 3/4h²+8h+3

      =8

ANGLE

Angle is constructed by two ray and one vertex. One ray is called initial side, then another side is called terminal side. Angle can be divided into three kinds.

There are:

1.      Acute angle. Acute angle is angle that the measure less then 90 degrees.

2.      Right angle. Right angle is the angle that the measure is 90 degrees.

3.      Obtuse angle. Obtuse angle is angle that the measure is more than 90 degrees.

TRIGONOMETRY

Before we learn about trigonometry, of course about the basic of trigonometry, do you know what is trigonometry? Trigonometry comes from two words. There are triangle and measure. In the basic of trigonometry, it is possible for us to find sin, cos, tan, etc. How can we find the value of sin, cos, tan, quickly and easily? There are some alternate way to find the value of sin, cos, tan, quickly and easily.

Let:

S=side opposite hypotenuse

O=over

H=hypotenuse

C=adjustion

T=segment front of angle

Then using a right triangle,

Sin = SOH

Cos = CAH

Tan = TOA

 INTEGER

What is integer? Integer is whole numbers but not fraction number.

Integers are included :

1.      Positive numbers, for example 1 2 3 4 5. . .n

2.      Negative numbers, for example -1 -2 -3 -4 -5. . .-n

3.      Zero number

Then, how about the name of each number on each position in any integer?

For example if we have number 5431, so how to grouped each number?

In this case:

1 = unit place

3 = tens place

4 = hundreds place

5 = thousand place

 FACTORING POLYNOMIAL

One way how to get the factor of polynomial is divide the polynomial with the factor given.

For more understand this topic, it is better for us to take one example.

1.      If we have polynomial x³-7x-6, then one factor of that polynomial is 3, so what are the other factors?

Solution:

Because one of the factors of x³-7x-6 is 3, we can divide x³-7x-6  with x-3, since 3 is the factor of x³-7x-6. From that operation we will get result x²+3x+2. Then from x²+3x+2, we can change that form into x+2 and x+1. For x+2, it means x=-2, then from x+1 it means that x=-1.

Finally we can conclude that the factors of x³-7x-6 are 3,-2, and -1.

 SOLVING WORD PROBLEMS

Sometimes, so hard for solving Mathematics in word problems. It is because for solving word problems need more understanding. Without more understanding, so hard for getting the solution. However, we must know how to solve word problem because of in our life, problems are always represented by words. So, it is very necessary for us to understand word problems.

            In this case, we have a key how to solve word problem easily. Well, let call it BUCK key. What is BUCK? Let check it out:

B= Box the question. It means that you have to know what the question is first.

U= Underline the info. It means that you must underline every info given in the question.

C= Circle the vocab. Sometimes there is a key word that we have to understand.

K= Knock out information you don’t need. It means that better for you to knock out information that you don’t need for solving the problem.

There are some example for solving word problems:

1.      How much money should Maria bring to buy a pair of shoes, if the original price is $80.00 and there is a discount 20%. This sale will last one week.

Solution:

First step we must box the question, and the question is how much money should Maria bring to buy a pair of shoes.

Then, the next step is underline the info given. In this question, the info are the original price is $80.00 and discount 20%.

The third step is circle the vocab. On question above, the vocab is original and discount.

Then the fourth step is knock out information you don’t need. In this problem, we knock out sentence ‘This sale will last one week’.

>original price $80.00

>discount 20% = 20% x 80.00 = 16.00

>new price = 80.00-16.00 = 64.00

So, we can conclude that Maria should pay $64.00.

2.      A college student plan to spend $420 on books for one semester. He also plans to spend $20 per week on pizza. The fall semester in 18 week long. How much will he need for books and pizza?

Solution:

First step we must box the question, and the question is how much will he need for books and pizza?

The second step is underline the info given. In this question, the info are :

>$420 for books in one semester.

>$20 for pizza in 18 weeks (one semester)

The third step is circle the vocab. On question above, the vocab is spend.

Then the fourth step is knock out information you don’t need. In this problem, there is no sentence that have to knock out.

Calculating :

>books: $420

>pizza: $20 x 18 = $360

>books+pizza = 420+360= 780

So, from that calculation we can conclude that he need $780.00 for books and pizza.

3.      A first number plus twice a second number is 23. Twice the first number plus the second number is 31. Find for each number!

Solution:

From the problem above, let :

The first number=x

The second number=y

Then, we translate the information above into symbol in Mathematics.

>x+2y=23…(i)

>2x+y=31…(ii)

Then we multiply equation (i)  by 2, and equation (ii) by 1.

Then we get :

>2x+4y=46…(i)

>2x+y=31…(ii)

After that, we subtract equation (i)  to equation (ii).

We get 3y=15 so y=5

If y=5 so we can get x=13

From that, we get y=5 and x=13.

4.      The sum of two numbers is 16. The first number plus 2 more than  times the second number equals to 18. Find each number!

Solution:

From the problem above, let :

The first number=x

The second number=y

Then, we translate the information above into symbol in Mathematics.

>x+y=16…(i)

>x+(3y+2)=18…(ii)

On second equation we can simplify into x+3y=16…(iii)

Then we subtract equation (i) and (iii).

So we get that y=0 and x=16.

 PROPERTIES OF LOG

In the properties of log, there is a basic formula that we have to know and understand.

If we have log_bx=y it means that b^y=x.

For more understand let go to the example.

1.      Log₁₀100=x, determine the value of x.

Solution:

Let see on the basic formula above, so we will get:

10^x=100

X=2

So, the value of x is 2.

2.      Log₂x=3, determine the value of x.

Solution:

Let see on the basic formula above, so we will get:

2³=x

X=8

So, the value of x is 8.

3.      Log₇(1/49)=x, determine the value of x.

Solution:

Let see on the basic formula above, so we will get:

7^x=1/49

7^x=1/7²

7^x=7^-2

X=-2

So we can conclude that the value of x is -2.

Then,we also have the formulas:

Log_b(M.N)      =          log_b M+log_b N            (i)

Log_b(M/N)      =          log_b M-log_b N             (ii)

Log_b(Xⁿ)         =          n.log_bX                        (iii)

For more understand that formulas, let go to the example:

1.      Log3[x²(y+1)/z³], simplify  using formulas above!

Solution:

=Log₃ [x²(y+1)]-log₃ z³, using  (ii)

= Log₃ x²+ Log₃(y+1)- log₃ z³, using (i)

=2 Log₃ x+ Log₃(y+1)-3 log₃ z, using (iii)

 TERMINOLOGI

Function is an algebra statement

For example:

1.      Y=2x

To find the value of y, we must know the value of x first. If the value of x is 5, so y is 10. It can be said that without x, you can’t get y.

                        Function can be grouped into two, there are:

1.      Equation

Example: 1+3=4

2.      Inequalities 

Example: 8>5

Function can be notate f(x) or y. f(x) means that that is the function of x.

For example: f(x)=y=3x+4 (standart form)