Place Value Chart Math

Introduction to place value math chart:

                           In math, the place value of numbers is established by its placed positions. The numbers are located in the particular number of a digit inside a numerical numbers. The place value specifies the position of a numerical system base value. The values are illustrates that numerical value in the standard forms in the identification. The values are established by place of the numerals accessibility.




Numbers on the place value chart in math:


Numbers- words

      The following chart graph is an example of place value chart in math.



In a given diagram, we have illustrate the place values of ones to hundred.

Decimal value of math chart:
 0.5 - 10 th

 0.05 -100 th

 0.005 -1000 th

 0.0005- 10000 th



Math example for decimal number place value:


Math chart Example 1:

       Place value is the sources of our whole number system. A place value in math system is one in which the position of a digit in a number establishes its value.

Look at number 584, the 5 in the hundreds place equal 500, The 8 in tens place equal 80, The 4 in the ones place equal 4.

Math chart Example 2:

 

The 6 is in the ten thousands place. It tells you there is 6 sets of ten thousand in the thousand place.

10,000+10,000+10,000+10,000+ 10,000+ 10,000 = 60,000   

The 5 is in the thousands place.  It tells you that there are 5 sets of thousand in the thousands place.1000+1000+1000+1000+1000 = 5000

The 2 is in the hundreds place. It tells you there are 2 sets of hundreds in the hundreds place.100+100=200

The 3 is in the tens place. It tells you there are 3 sets of tens in the tens place 10+10+10=30

The 4 is in the ones place. It tells you there is 4 ones in the ones place 1+1+1+1= 4

60,000 + 5000 + 220 + 30 + 4 = 65234

Fraction Subtraction Rules

Introduction For fraction subtraction rules:
A fraction is a part of a whole group or its region. A fraction written in a form of number with bottom part (denominator) denotes how many parts the whole divided into, and a top part (numerator). Fraction is in few types which can be written as many types which depend upon numerator and denominator by its value.

Fractions are subdivided into
Proper fractions
Improper fractions
Mixed fractions


Classification of Fractions:


Proper Fractions:
A proper fraction, fraction which a denominator shows in number of parts into whole divided and a numerator shows the number of parts which  we taken out. proper fraction also defined as numerator less than denominator.

Example:
`1/3, 2/5`

Improper Fractions:
Improper fractions is a fraction, whose numerator which is greater than the denominator are called improper fractions.

Example:
`3/2, 9/2`

Mixed Fractions:
A  mixed fraction is a fraction defined as which  has combination of a whole and its part.

Example:
2` 1/4,` 2` 2/9` ,


Rules for Fraction Subtraction:


In subtraction, rules for fraction numbers with same denominator, denominator remains same number and we subtract only numerator.
We can't do subtraction in fraction with different denominator rules for that we have to take LCM for all denominator and change different denominator into like denominator by taking LCM and adding fractions

Example Problems in Fraction subtraction rules:
Example 1:
subtract fractions  `1/3` from  `5/3`

Solution :
given fraction is a proper fraction, we have same denominator
`5/3 -1/3` =` (5-1)/3`

=`4/3`

Example 2:
subtract fractions  `2/5` from  `4/5`

Solution :
given fraction is a proper fraction, we have same denominator
`4/5 -2/5` =` (4-2)/5`

=`2/5`

Example 3:
subtract  fractions  `1/5` from `1/3`

Solution:
In this improper fraction we have different denominator  so,we take LCM
The LCM of 3 and 5 is 15.

Therefore, `1/3-1/5` =`(1xx5)/(3xx5)-(1xx3)/(5xx3)`

=`5/15-3/15`

=`2/15`
Example 4:
Subtract fractions  `1 2/5` from `3 3/6`

Solution:
`3 3/6 - 1 2/5` =  `(18+3)/6-(5+2)/5`

Now `21/6-7/5` =`(21xx5)/(6xx5)-(7xx6)/(5xx6) `    since LCM of 5,6 =30

=`105/30-42/30`

=`63/30`

Elementary Math Terms

Introduction to elementary math terms

     Elementary math terms are the basic form of algebra having little or no proper information of mathematics beyond arithmetic. In arithmetic numbers and their arithmetical operations (such as +, −, ×, ÷) occur, in algebra one also uses symbols (such as x and y, or a and b) to denote numbers. Elementary Algebra can be distinguished from abstract algebra, a more advanced field of study.And now we see about the elementary math terms below in simple problems.(Source in wikipedia )

                              

Elementary math terms problems in solving the equations:

• Solve the given problem for  x: 1 - 3(x - 4) = 2(3x + 1) - 7

Solution:-

Now we allocate the  above equation:

1 - 3x +12 = 6x + 2 - 7

Collect like terms:

 -3x +13 = 6x - 5

Add 3x to both sides of the equal sign:

-3x +13 + 3x = 6x - 5 + 3x

13 = 9x - 5

Add 5 to both sides:

18 = 9x

Divide both sides by 9 in above equation :

2 = x

The final result of the given problem fro  x is 2.

• Solvethe given problem for y:   ax + by = c

solution:-

Step 1: Subtract ax from both sides:

Step 2:by = c - ax

Step 3:Divide both sides by b:

           C - ax
y =   -----------  
             b

The final result of the given problem are            C - ax
                                                                       y = -----------                                            
                                                                                b

• Solve the problem :X = 5*(20+5)

Solution:

Step 1:  5*(20+5) = 5*20+5*5

Step 2:  =100+25

               X  =125

The final result the given problem is X= 125

• Solve the problem :X= 9*(6 + 5)

Solution

Step 1: 9*(6 + 5) = 9*6 + 9 *5

Step2: 36 + 45 

Step 3: X =  81     

The final result of the given problem  is X = 81       

• Solve the problem : Y = 7+(4+6)

Solution:

Step 1:7+(4+6)=7+10

                  Y    =17

The final result of the given problem is Y =  17

The above discussed are the  element math terms like addition , subtraction ,Multiplication and division .

Practice problems in Elementary math terms :

• Solve algebraic equation       6(-2x - 3) - (x - 2) = -5(2x + 3) + 19  

Solution:    x = 10

• Subtract x³ – 3x² – 1 from 3x³ + 6x² – 4x – 8.

Solution:   2x³ + 9x² – 4x – 7

Intercept Theorem

Introduction:

                  Intercept theorem plays a vital role in elementary geometry. It deals with the ratios of various line segments, which are created if two intersecting lines are intercepted by a pair of parallels. This theorem is equivalent to ratios of similar triangles. Traditionally it is attributed. The intercept theorem is  also called as Thale's Theorem. If a transversal line makes equal intercepts on three or more parallel lines, then any other line cutting them will also make equal intercepts.

Concept of Intercept Theorem:

                  If a transversal line makes equal intercepts on three or more parallel lines, then any other line cutting them will also make equal intercepts. AP || BQ || CR.

Types of intercept Theorem

                  If a transversal line makes equal intercepts on three or more parallel lines, then any other line cutting them will also make equal intercepts. AP || BQ || CR.

What Does Transversal Mean in Math

Introduction to Transversal in Math:

Definition:

A line that cuts (passes through) across two or more (usually parallel) lines then it is said to be a transversal.
It can also be defined as a line that intersects two or more co-planar lines each at a different point is also termed as a Transversal.

Transversal Postulates:
If two lines are parallel to each other and intersected by a transversal then the corresponding angles are congruent.

Some important points:

• Supplementary angles are the angles whose sum is equal to 180⁰.
• Vertical angles are the angles that are not adjacent angles and are formed by two intersecting lines and are always equal to each other.

Properties of transversal of parallel lines:

• If two parallel lines are cut by a straight line (transversal), then the corresponding angles around each intersection are equal in measure or we can say mathematically as these angles are congruent.
• If two parallel lines are cut by a straight line (transversal) then the alternate interior angles are congruent.
• If two parallel lines are cut by a straight line (transversal) then the interior angles on the same side of the transversal are supplementary.

Proofs for transversal by solved examples

Solved Problems to prove the above given points:
Ex 1: In the given figure, If the angles 2 and 3 are congruent then prove that r and s are parallel.

parallel lines 

Sol: Step 1: Given in the problem that angle 2 = angle 3
       Step 2: From the data given above angle 1 and angle 2 are vertically opposite angles and are congruent.
                               therefore, angle 1 = angle 2
       Step 3:The transitive property says that if a=b and b=c then a=c
 Using this property we have,
          angle 2 = angle 3    (given in the problem)
          angle 1 = angle 2    (vertically opposite angles)
so ,    angle 1 = angle 3   
As the angles made by the transversal with the two lines are equal the two lines are parallel.
Ex 2: Show that the transversal shown in the figure cuts the parallel lines.

Sol: In the above figure the angles 4 and 3 are known as alternate interior angles.Accoding to above discusssed points the alternate interior angles are congruent.
           `=>`    angle 4 = angle 3
So, the two lines are parallel lines.
Ex 3: Prove that the lines a and b shown in the figure below are parallel.

Sol: Clearly it is shown that the angles 1 and 2 are equal to` 90@` . That means that they are supplementary angles based upon the above discussion.
As the  angles made by the transversal with the two straigth are supplementary(equal) the two lines are parallel.Hence, proved.

Practice Problem on traversal line

Pro: Find the measures of the unknown angles in the following figure.Given r is parallel to s and angle 1 = `60@.`

Ans:  angle 2 =`120@.`
angle 3 = `60@` .
angle 4 = `120@`
angle 5 = angle 1 = 60⁰
angle 6 = angle 2 = 120⁰
angle 7 = angle 3 = 60⁰
angle 8 = angle 4 = 120⁰

Solving Genetics Probability Problems

In probability method, we have to decide the basic terms of probability.. The main aim of genetics probability subject is to give the fundamental properties the importance of their use with some basic examples of genetics. In a genetics probability, the basic term and properties is not easier to understand but work with sums we will start to get comfortable with in genetics probability.


Basic Definitions of genetics probability:

In a genetic probability method, an testing method is continuously repeated for infinite numbers of time and it happened by the expected probability in the genetics

Genetics probability solving problems:

Problem 1:

To solve consider a locus with two chromosome, C and c. If the frequency of CC is 0.64, what is the frequency of A under Hardy-Weinberg?

Solution:

Solving methods of genetic probability,

Under H-W, if q = freq(C) , then q2 = freq(CC), hence q2 =0.64 or q = 0.8.

Problem 2:

To solve if the genotypes CC, Cc, and cc have frequencies 0.7, 0.49, and 0.49 (respectively), what are q = freq (C)? r = freq (c)? After a single generation of random mating, what is the expected frequency of CC? Of Cc? Of cc?

Solution:

Solving methods of genetic probability,

p = freq (CC) + (1/2) freq (Cc) = 0.7 + (1/2)(0.49) = 0.945

q = 1-p = 0.945

freq (CC) = p2 = 0.9452 = 0.8930

freq (Cc) = 2qr = 2*0.945*0.8930 =1.6877

freq (cc) = r2= 0.89302= 0.797449

Problem 3:

To solve the suppose 60 out of 850 women’s are green eyes. What is frequency of green eyes? If a random women’s is chosen, what is the probability they are a green eyes?

Solution:

Solving methods of genetic probability,

Freq (Redheads) = 60/850 = 0.070 or 7.05 percent

Probability of a Redhead = 30/850, or 7.05 percent

Problem 4:

Solve the genotype cc is lethal and yet population has an equilibrium frequency for c of 30.  Here the Cc is the fitness and its value is one.  Find the CC genotype fitness?

Recall if the genotypes CC: Cc: cc have fitness 1-s : 1 : 1-t, then the equilibrium frequency of A is s/(r+s).

Here, s= 1 (as cc is lethal), so that freq(C) = 1- freq(c) =0.6 = 1/(1+s)

Solving gives 1+s = 1/0.8, or s = 1/0.8 -1 = 3.5

Hence fitness of CC = 1-s = 1-3.5=-2.5.

Learn Derivative at a Point

Learn derivative at a point involves the process solving derivative problems at an exam point view. The rate of change of the given function is determined with the help of calculus. To find the rate of change the calculus is divided into two types such as differential calculus and integral calculus. At exam point of view the derivative is easily carried out by differentiating the given function with respect to input variable. The following are the solved example problems in derivatives at exam point of view for learn.

Learn derivative at a point example problems:


Example 1:

Find the derivative for the given differential function.

f(e) = 3e 3 -4 e 4  - 5e

Solution:

The given function is

f(e) = 3e 3 -4 e 4  - 5e

The above function is differentiated with respect to e to find the derivative

f '(e) = 3(3e 2 )-4(4e 3  ) - 5

By solving above terms

f '(e) = 9e 2 -  8e 3 - 5

Example 2:

Compute the derivative for the given differential function.

f(e) = 6e6 - 5 e5 - 4 e4 - e

Solution:

The given equation is

f(e) = 6e6 - 5 e5 - 4 e4 - e

The above function is differentiated with respect to e to find the derivative

f '(e) =  6(6e 5)  -5 (5 e4 ) -4(4 e3) - 1

By solving above terms

f '(e) =  36e 5  - 25 e4  - 16 e3 - 1

Example 3:

Compute the derivative for the given differential function.

f(e) = 2e 2 -4 e 4  - 15

Solution:

The given function is

f(e) = 2e 2 -4e 4  - 15

The above function is differentiated with respect to e to find the derivative

f '(e) = 2(2e  )-4(4 e 3 ) - 0

By solving above terms

f '(e) = 4e -16e3

Example 4:

Compute the derivative for the given differential function.

f(e) = 5e5 -4e 4 -3e 3  - 2

Solution:

The given function is

f(e) = 5e5 -4e 4 -3e 3  - 2

The above function is differentiated with respect to e to find the derivative

f '(e) = 5(5e 4 )-4(4e 3 ) -3( 3e 2) -0

By solving above terms

f '(e) = 25e 4 -16e 3  -9 e 2


Learn derivative at a point practice problems:


1) Compute the derivative for the given differential function.

f(e) = 2e 3 -3 e 4  - 4 e 5

Answer: f '(e) = 6e 2 -12 e3 - 20 e 4

2) Compute the derivative for the given differential function.

f(e) = e 3-e5 - 4 e 6

Answer: f '(e) = 3e2 - 5e4 - 24 e 5