Get Well Wishes 4 Riika and Leo

The Whole Wide world is yours,

The snow-covered mountains,

The sprinkling fountains,

The glittering sunlight,

The bluest sky,

The sweetest pie,

The singing birds,

The naughty cats,

The playful breeze,

The twinkling stars,

The burning mars,

The Milky Way,

The poetry library,

The buzzing bees,

The graceful willow trees,

The buried gems,

The pesky germs,

The delicious food,

The blissful mood,

The widest ocean,

The dearest friends…

Have a look,

Get yourself in our book!


This poem is dedicated to all Poets, YOU At Jingle Poetry,  who make enomous difference in our community.

The Images are selected and dedicated to Riika, who have been sick because of chicken pox for more than a week now, and leo, who is under weather recent days.

Precious Princesses of Jingle Poetry Who Serve You:





Jamie Dedes

Lovely Annie

Joanny (left to get her Ph. D)



True Princes of Jingle Poetry Who Serve You:

Leo (Leonnyes)


Someone Is Special

Visit any of our officials to read their fabulous poetry for a treat and get yourself introduced to them… have fun! Everyone is special, you are special, Smiles!

Love you all!  xxx

To link in a poem to our potluck today, click here:


Please visit Riika: at RiikaInfinityy


And leo at  Leo (Leonnyes)

To wish them good health today.

The Perfect Poet Award Acceptance Poem Plus…

Do you remember ODE-

Ordinary Differentiate Equation?

Do you like to be reminded of

How much a fine mathematician

love to work on math as if one is a magician?

Let me teach you

about how to differentiate a polynomial

By the power rule.

The rate of change in distances at certain time period is called speed,

The rate of change in the increase of population is called average growth,

How about the rate of change in each second?

The way to calculate the instant rate of change

Is to differentiate…

For a polynomial,

The derivatives to any fixed number or constant

Is zero,

The derivative to 1  is zero,

The derivative to 2 is again zero,

The derivative to 200 is also zero..

What a hero.

The derivatives to any power of x

Is to bring down the power as a coefficient,

Reduce the power to x by one.

For example,

The derivative of x to the power 5

Is 5 times x to the power 4…

Do you get it?

Did you picture it?

The derivative of x to the power 2

Is 2 times x to the power 1,

Which is the same as 2 times x or 2x,

How divine!

If you stick to the rule,

You can do it correct and feel cool.

Keep working on it,

Keep thinking of it,

You will make it,

Thanks to Trisha, Fiveloaf, and Pravin who have nominated Jingle for The PERFECT Poet Award , which Jingle feels very honored and accepts here,  Please visit them to read their OUTSTANDING work in poetry today…



Pravin nair

For Week 27 The Perfect Poet Award, Jingle wishes to nominate (she is nominated by 3 poets, thus decides to nominate three poets here.)




Congratulations! Tracy, Leonnyes, and JP, I enjoy your talent in writing or poetry and feel very blessed to have you join Poets Rally Week 26…


I wold like to  make an announcement about Pravin Nair whose  poetry has been published as a book! :) :)

The link to Pravin Nair’s book publishing announcement:

Let’s Celebrate by visiting her and give her the greetings and love she deserves! cheers!


The Power Rule

xn =  nxn−1

“The derivative of a power of x

is equal to the product of

the exponent  times

x with the exponent reduced by 1.”

That is called the power rule.  For example,

x5 =  5x4

However, we know that the power rule is true when n = 1:

x1 =  1· x0 =  1;
that it is true when n = 2:
x2 =  2x;
and that it is true when n = 3 :
x3 =  3x².

It seems natural, then, to give a proof by induction;  The induction hypothesis will be that the power rule is true for n = k:

xk =  k xk−1,

and we must show that it is true for n = k + 1; i.e. that

xk+1 =  (k + 1) xk.


xk+1 = d
x· xk
xk+1 = x· k xk−1 + xk· 1,
xk+1 = k xk + xk
xk+1 = (k + 1)xk.

Therefore, if the power rule is true for n = k, then it is also true for its succesor, k + 1.  And since the rule is true for n = 1, it is therefore true for every natural number.

Problem.   Calculate the derivative of  x6 − 3x4 + 5x3x + 4.

6x5 − 12x3 + 15x² − 1