Tricks to remember the quadratic equation.ACTION RESEARCH ON MATHS

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TRICKS TO REMEMBER THE QUADRATIC EQUATION” ACTION RESEARCH REPORT Guide: Shilpa Popat Investigator: Sugandha Singh School Of science and education Navrachana university Vadodara 2014-2015 B.Ed

Transcript of Tricks to remember the quadratic equation.ACTION RESEARCH ON MATHS

“TRICKS TO REMEMBER THE QUADRATIC

EQUATION”

ACTION RESEARCH REPORT

Guide: Shilpa Popat Investigator: Sugandha Singh

School Of science and education

Navrachana university

Vadodara

2014-2015

B.Ed

CERTIFICATE

This is to certify that Miss Sugandha Singh has completed action

research as a part of B.Ed program entitled “Tricks To Remember the

Quadratic Rquations”. She has completed it to the best of her

capacities and to the best of my Knowledge, this is her original work.

Guide: Ms. Shilpa Popat

Acknowledgement

Action research is a process in which participants examine their own educational practice,

systematically and carefully, using the techniques of research . Action research approaches

students to share their problems, so that teachers will help the students and with activities,

shortcut methods, rhymes, songs etc. Help them out from the problem.

My sincere thanks go to Mr. P.V. Xavier, principal of Navrachana University who gave me

the opportunity to do such a wonderful research and also Ms. Shilpa Popat for her ideas and

helped us to think out of the box and make such kind of idea.

I am thankful to my co- teacher pupils who motivate me, inspired and helped me while doing

my practice teaching and Action Research.

Sugandha Singh

Sr. No. Content Page No.

1

Abstract

2 Introduction

3 Specific Question

4 Research Setting

5 Review

6 Research Method

7 Objective of the study

8 Participants

9 Data Collection Tool

10 Process of Data Collection

11 Analysis of Data

12 Research Finding

13 Conclusion

Abstract

Quadratic Equations

An example of a Quadratic Equation:

Quadratic Equations make nice curves, like this one:

The name Quadratic comes from "quad" meaning square, because the variable

gets squared (like x2).

It is also called an "Equation of Degree 2" (because of the "2" on the x)

Standard Form

The Standard Form of a Quadratic Equation looks like this:

a, b and c are known values. a can't be 0.

"x" is the variable or unknown (we don't know it yet).

Here are some more examples:

2x2 + 5x + 3 = 0 In this one a=2, b=5 and c=3

x2 − 3x = 0

This one is a little more tricky:

Where is a? Well a=1, and we don't usually write "1x2"

b = -3

And where is c? Well c=0, so is not shown.

5x − 3 = 0

Oops! This one is not a quadratic equation: it is missing x2

(in other words a=0, which means it can't be quadratic)

Hidden Quadratic Equations!

So the "Standard Form" of a Quadratic Equation is

ax2 + bx + c = 0

But sometimes a quadratic equation doesn't look like that! For example:

In disguise → In Standard Form a, b and c

x2 = 3x -1 Move all terms to left hand side x2 - 3x + 1 = 0 a=1, b=-3, c=1

2(w2 - 2w) = 5 Expand (undo the bracket),

and move 5 to left 2w2 - 4w - 5 = 0 a=2, b=-4, c=-5

z(z-1) = 3 Expand, and move 3 to left z2 - z - 3 = 0 a=1, b=-1, c=-3

5 + 1/x - 1/x2 = 0 Multiply by x2 5x2 + x - 1 = 0 a=5, b=1, c=-1

Have a Play With It

Play with the " Quadratic Equation Explorer " so you can see:

the graph it makes, and

the solutions (called "roots").

How To Solve It?

The "solutions" to the Quadratic Equation are where it is equal to zero.

There are usually 2 solutions (as shown in the graph above).

They are also called "roots", or sometimes "zeros"

There are 3 ways to find the solutions:

1. We can Factor the Quadratic (find what to multiply to make the Quadratic Equation)

2. We can Complete the Square, or

3. We can use the special Quadratic Formula:

Just plug in the values of a, b and c, and do the calculations.

We will look at this method in more detail now.

About the Quadratic Formula

Plus/Minus

First of all what is that plus/minus thing that looks like ±?

The ± means there are TWO answers:

Here is why we can get two answers:

But sometimes we don't get two real answers, and the "Discriminant" shows why ...

Discriminant

Do you see b2 - 4ac in the formula above? It is called the Discriminant, because it

can "discriminate" between the possible types of answer:

when b2 - 4ac is positive, we get two Real solutions

when it is zero we get just ONE real solution (both answers are the same)

when it is negative we get two Complex solutions

Complex solutions? Let's talk about them after we see how to use the formula.

Using the Quadratic Formula

Just put the values of a, b and c into the Quadratic Formula, and do the calculations.

Example: Solve 5x² + 6x + 1 = 0

Coefficients are: a = 5, b = 6, c = 1

Quadratic Formula: x = [ -b ± √(b2-4ac) ] / 2a

Put in a, b and c: x = [ -6 ± √(62-4×5×1) ] / (2×5)

Solve: x = [ -6 ± √(36-20) ]/10

x = [ -6 ± √(16) ]/10

x = ( -6 ± 4 )/10

x = -0.2 or -1

Answer: x = -0.2 or x = -1

And we see them on this graph.

Check -0.2: 5×(-0.2)² + 6×(-0.2) + 1

= 5×(0.04) + 6×(-0.2) + 1

= 0.2 -1.2 + 1 = 0

Check -1: 5×(-1)² + 6×(-1) + 1

= 5×(1) + 6×(-1) + 1

= 5 - 6 + 1 = 0

Remembering the Formula

I don't know of an easy way to remember the Quadratic Formula, but a kind reader suggested

singing it to "Pop Goes the Weasel":

"x equals minus b

"All around the mulberry bush

plus or minus the square root The monkey chased the weasel

of b-squared minus four a c The monkey thought 'twas all in fun

all over two a" Pop! goes the weasel"

Try singing it a few times and it will get stuck in your head!

Complex Solutions?

When the Discriminant (the value b2 - 4ac) is negative we get Complex solutions ... what

does that mean?

It means our answer will include Imaginary Number . Wow!

Example: Solve 5x² + 2x + 1 = 0

Coefficients are: a = 5, b = 2, c = 1

Note that The Discriminant is negative: b2 - 4ac = 22 - 4×5×1 = -16

Use the Quadratic Formula: x = [ -2 ± √(-16) ] / 10

The square root of -16 is 4i

(i is √-1, read Imaginary Numbers to find out more)

So: x = ( -2 ± 4i )/10

Answer: x = -0.2 ± 0.4i

The graph does not cross the x-axis. That is

why we ended up with complex numbers.

In some ways it is easier: we don't need more calculation, just leave it as -0.2 ± 0.4i.

Summary

Quadratic Equation in Standard Form: ax2 + bx + c = 0

Quadratic Equations can be factored

Quadratic Formula: x = [ -b ± √(b2-4ac) ] / 2a

When the Discriminant (b2-4ac) is:

positive, there are 2 real solutions

zero, there is one real solution

negative, there are 2 complex solutions

Learning Quadratic equations (by original method)

A quadratic equation is an equation where the highest exponent of a variable is 2. There are three

main ways to solve quadratic equations: to factor the quadratic equation if you can do so, to use the

quadratic formula, or to complete the square. If you want to know how to master these three methods,

just follow these steps steps.

Method 1 of 3 : Factoring the Equation

1Combine all of the like terms and move them to one side of the equation. The first

step to factoring an equation is to move all of the terms to one side of the equation, keeping

the x2 term positive. To combine the terms, add or subtract all of the x2 terms, the x terms,

and the constants (integer terms), moving them to one side of the equation so that nothing

remains on the other side. Once the other side has no remaining terms, you can just write "0"

on that side of the equal sign. Here's how you do it:[1] 2x2 - 8x - 4 = 3x - x2 =

2x2 +x2 - 8x -3x - 4 = 0

3x2 - 11x - 4 = 0

2 Factor the expression. To factor the expression, you have to use the factors of the

x2 term (3), and the factors of the constant term (-4), to make them multiply and then add up

to the middle term, (-11). Here's how you do it: Since 3x2 only has one set of possible factors, 3x and x, you can write those in the

parenthesis: (3x +/- ? )(x +/- ?) = 0.

Then, use process of elimination to plug in the factors of 4 to find a combination that

produces -11x when multiplied. You can either use a combination of 4 and 1, or 2 and 2,

since both of those numbers multiply to get 4. Just remember that one of the terms should be

negative, since the term is -4.

Try out (3x +1)(x -4). When you multiply them out, you get - 3x2 -12x +x -4. If you combine

the terms -12x and x, you get -11x, which is the middle term you were aiming for. You have

just factored the quadratic equation.

As an example, let's try a factoring combination that does not work: (3x -2)(x +2) = 3x2 +6x -

2x -4. If you combine those terms, you get 3x2 -4x -4. Though the factors -2 and 2 do

multiply to make -4, the middle term does not work, because you wanted to get -11x, not -4x.

3 Set each set of parenthesis equal to zero as separate equations. This will lead you to

find two values for x that will make the entire equation equal to zero. Now that you've

factored the equation, all you have to do is put each set of parenthesis equal to zero. So, you

should write 3x +1 = 0 and x - 4 = 0.

4 Solve each equation independently. In a quadratic equation, there will be two given

values for x. Just solve each equation independently by isolating the variable and write down

the two solutions for x. Here's how you do it: 3x + 1 = 0 =

3x = -1 =

3x/3 = -1/3

x = -1/3

x - 4 = 0

x = 4

x = (-1/3, 4)

Method 2 of 3: Using the Quadratic formula

1Combine all of the like terms and move them to one side of the equation.Move all of

the terms to one side of the equal sign, keeping the x2 term positive. Write the terms in

descending order of degrees, so that the x2 term comes first, followed by the x term and the

constant term. Here's how you do it: 4x2 - 5x - 13 = x2 -5

4x2 - x2 - 5x - 13 +5 = 0

3x2 - 5x - 8 = 0

2 Write down the quadratic formula. The quadratic formula is: {-b +/-√ (b2 - 4ac)}/2a[2]

3 Identify the values of a, b, and c in the quadratic equation. The variable a is the

coefficient of the x2 term, b is the coefficient of the x term, and c is the constant. For the

equation 3x2 -5x - 8 = 0, a = 3, b = -5, and c = -8. Write this down.

4 Substitute the values of a, b, and d into the equation. Now that you know the values

of the three variables, you can just plug them into the equation like this: {-b +/-√ (b2 - 4ac)}/2

{-(-5) +/-√ ((-5)2 - 4(3)(-8))}/2(3) =

{-(-5) +/-√ ((-5)2 - (-96))}/2(3)

5 Do the math. After you've plugged in the numbers, do the remaining math to simplify

positive or negative signs, multiply, or square the remaining terms. Here's how you do it: {-(-5) +/-√ ((-5)2 - (-96))}/2(3) =

{5 +/-√(25 + 95)}/6

{5 +/-√(120[[Media:Media:Example.ogg]])}/6

6 Simplify the square root. If the number under the radical symbol is a perfect square,

you will get a whole number. If the number is not a perfect square, then simplify to its

simplest radical version. If the number is negative, and you're sure it's supposed to be

negative, then the roots will be complex. In this example, √(121) = 11. You can write that x =

(5 +/- 11)/6.

7 Solve for the positive and negative answers. If you've eliminated the square root

symbol, then you can keep going until you've found the positive and negative results for x.

Now that you have (5 +/- 11)/6, you can write two options: (5 + 11)/6

(5 - 11)/6

8 Solve for the positive and negative answers. Just do the math:

(5 + 11)/6 = 16/6

(5-11)/6 = -6/6

9 Simplify. To simplify each answer, just divide them by the largest number that is evenly

divisible into both numbers. Divide the first fraction by 2, and divide the second by 6, and

you have solved for x. 16/6 = 8/3

-6/6 = -1

x = (-1, 8/3)

Method 3 of 3: Completing the square

1 Move all of the terms to one side of the equation. Make sure that the a or x2term is

positive. Here's how you do it:[3] 2x2 - 9 = 12x =

2x2 - 12x - 9 = 0

In this equation, the a term is 2, the b term is -12, and the c term is -9.

2 Move the c term or constant to the other side. The constant term is the numerical term

without a variable. Move it to the right side of the equation:

2x2 - 12x - 9 = 0

2x2 - 12x = 9

3 Divide both sides by the coefficient of the a or x2 term. If x2 has no term in front of it,

and just has a coefficient of 1, then you can skip this step. In this case, you'll have to divide

all of the terms by 2, like so: 2x2/2 - 12x/2 = 9/2 =

x2 - 6x = 9/2

4 Divide b by two, square it, and add the result to both sides. The b term in this

example is -6. Here's how you do it: -6/2 = -3 =

(-3)2 = 9 =

x2 - 6x + 9 = 9/2 + 9

5 Simplify both sides. Factor the terms on the left side to get (x-3)(x-3), or (x-3)2. Add

the terms on the right side to get 9/2 + 9, or 9/2 + 18/2, which adds up to 27/2.

6 Find the square root of both sides. The square root of (x-3)2 is simply (x-3). You can

write the square root of 27/2 as ±√(27/2). Therefore, x - 3 = ±√(27/2).

7 Simplify the radical and solve for x. To simplify ±√(27/2), look for a perfect square

within the numbers 27 or 2 or in their factors. The perfect square 9 can be found in 27,

because 9 x 3 = 27. To take 9 out of the radical sign, pull out the number 9 from the radical,

and write the number 3, its square root, outside the radical sign. Leave 3 in the numerator of

the fraction under the radical sign, since that factor of 27 cannot be taken out, and leave 2 on

the bottom. Then, move the constant 3 on the left side of the equation to the right, and write

down your two solutions for x: x = 3 + (3√6)/2

x = 3 - (3√6)/2

Tips

As you can see, the radical sign did not disappear completely. Therefore, the terms in the numerator

cannot be combined (because they are not like terms). There is no purpose, then, to splitting up the

plus-or-minus. Instead, we divide out any common factors --- but ONLY if the factor is common to

both of the constants AND the radical's coefficient.

If the number under the square root is not a perfect square, then the last few steps run a little

differently. Here is an example:

If the "b" is an even number, the formula is : {-(b/2) +/- √(b/2)-ac}/a.

Learning QUADRATIC EQUATIONS (by simple short-cut trick method)

You can get good score only by practicing more and more. All you need to do is to do math

problems correctly within time, and this can be achieved only by using shortcut tricks. Again

it does not mean that you can’t do maths without using shortcut tricks. You may have that

potential to do maths within time without using any shortcut tricks. So Quadratic equations

shortcut tricks here for those people. We try our level best to put together all types of shortcut

methods here.

Example: ax2 + bx + c = 0

it is equal to 0 and the a , b , c are the constant value and we can say that x represent as

unknown .

The a , b , c are the constant and quadratic coefficient or linear coefficient. Quadratic

equation hold the only power of x which is also non negative integer .

Example some quadratic equation:

Example 1:

6x2 +11x + 3 = 0

Answer :

Shortcut tricks :

This equation +6 is cofficient of x2 .

+ 11 is cofficient of x

+3 is constant term .

Step 1: we multiply (+6) x (+3) = +18

Step 2 : we break + 18 in two parts such that addition between them is 11.

So , +18 = 9 + 2 = 11 . and product of both factors is 18 . So , +9 and +2 = Sum of is +11 .

Step 3:Change the sign of both the factors , So +9 = -9 and +2 = -2 .

and divide by cofficient of x2 , So we get -9 / 6 = -3 / 2 and -2 / 6 = – 1 / 3 .

Example 2:

4y2 + 12y + 8 = 0

Answer :

Shortcut tricks :

4 x 8 = +32

we break + 32 in two parts such that addition between them is 12.

+32 = (+8) + (+ 4) = +12 .

Change sign of both factor and divide by cofficient of y2 ,

So – 8 / 4 = – 2 .

– 4 / 4 = -1 .

i. e . – 2 , – 1 .

Example 3: 6 x2 + 10x + 4 = 0

Answer :

Shortcut tricks :

6 x 4 = +24

we break + 24 in two parts such that addition between them is 10.

+32 = (+6) + (+ 4) = +10 .

Change sign of both factor and divide by cofficient of x2 ,

So , -6 / 6 = -1 .

– 4 / 6 = -2 / 3 .

i. e . -1 , – 2 / 3 .

Example 4:

x2 + 9x + 20 = 0

Answer :

Shortcut tricks :

5 x 4 = +20

we break + 20 in two parts such that addition between them is 9.

+20 = (+5) + (+ 4) = +9 .

Change sign of both factor and divide by cofficient of x2 ,

So – 5 / 1 = – 5

– 4 / 1 = – 4.

i. e . – 5 , – 4 .

Example 5:

3y2 + 19y + 28 = 0

Answer :

Shortcut tricks :

3 x 28 = +84

we break + 84 in two parts such that difference between them is 19

+84 = (+12) + (+ 7) = +19 .

Change sign of both factor and divide by cofficient of y2 , that is 3

So , y = -12 / 3 = – 4 , y = -7 / 3 = – 7 / 3

Y = – 4 , – 7 / 3

Research Method

Action research is either research initiated to solve the immediate problem or a reflective

process of progressive problem solving led by individuals working with others in terms or as

part of a “community of practice” to improve the way they address issues and solve problems

.Action research involves actively participating in a change situation, often via an existing

organization, whilst simultaneously conducting research. Sometimes it is called practitioner

based research (McNiff, 2002), is a powerful tool for change and improvement at the local

level. Kurt Lewin’s own work (one of action research’s founding fathers) was deliberately

intended to change the life chances of disadvantaged groups in terms of housing,

employment, prejudices, socialisation and training.

Acton research is an interactive inquiry process that balance problem solving actions

implemented in a collaborative context with data-driven collaborative analysis or research to

understand underlying causes enabling future predictions about personal and organizational

change (Reason & Bradbury, 2002)

I used the “Problem Solving Method” and “Survey Method” for my action research because it

gather data at a particular point in time with the intention of describing the nature of existing

conditions, or identifying standard against which existing condition can be compared, or

determining the relationship that exist between specific events. Thus, these methods may vary

in their level of complexity from those which provide simple frequency counts then those

which present relation analysis.

The process of working through detailed of a problem to reach a solution. Problem solving

may include mathematical or systematic operations and can be a gauge of

an individual's critical thinking skills.

Some of the causes to use these two methods are-

Gather data on a one-short basis and hence is economical and efficient.

Generation numerical data.

Provide descriptive, inferential and explanatory information.

Gathered standardized information i.e. using the same instruments and questions for

all participants.

lack of clarity of the situation

multiple goals

Objectives of the study

(i) To enable the learner to identify, implement, solve and memorize the

concept of quadratic equation.

(ii) To enable the learner to remember the formula regarding quadratic

equation.

CONCLUSION

Quadratic equation contains formula, rules, problem solving Questions etc. These are the

chapter which requires more activity, shortcut tricks, proper implementation of formulas etc.

and this is reason that a child does not able to learn this kind of chapter, that a child feels

boring and tough to remember. For this kind of topics a teacher can show activity, videos,

new methods etc. These all can help the children to take interest in these kinds of topics.

When a child feel difficulty to learn a subject, it automatically hates that subject so, a teacher

is one who take extra care for this kind topics and help the children’s to understand such kind

of topics in a easiest way.

I personally feel that this chapter is tough for students if we show them activities, learning

formulas in a simple way while connecting them to real life example related, pictures help the

children out with this kind of problem. I tried whatever I can do for this age group and help

them and make them understood this kind of chapter.

Thus, I can say, combine efforts of student interest and teacher’s ideas can solve anything.

Innovative and enthusiastic efforts are essential to enhance the performance.

Thus we can say that action research, contributes to the theory & knowledge base to enhance

practice, supports the professional development of practitioners,builds a collegial networking

system,helps practitioners identify problems & seek solutions systematically,can be used at

all levels & in all areas of education.

BIBLIOGRAPHY AND URLs USED

Mathematics book (NCERT)

http://www.wikihow.com/Factor-Second-Degree-Polynomials-(Quadratic-Equations)

http://www.tricki.org/article/How_to_solve_quadratic_equations

http://www.mathematicsmagazine.com/corresp/ThomasNguyen/ThomasNguyen-

QuadraticEquations.html

http://www.math-shortcut-tricks.com/basic-math-shortcut-tricks/