Have a great weekend

I endorse every word of Jayaraman's posting on our father and would like to add this. Appa was self-effacing to a fault. He had absolute faith in Lord Rama and we learnt after his death through a friend that he had started reading the Ramayana in his 16th year and continued till the end. Problems he had aplenty but he never ran from astrologer to astrologer, sanyasi to sanyasi or temple to temple. Whenever anything apparently unfavourable he would smile and say எல்லாம் நன்மைக்கே and he firmly believed that whatever happened was God's will and God knows what is good for us.

Answer

The answer to my teaser is 22

Teaser

A toffee costs Re.1. For every 3 wrappers, you get a toffee free.

So, for Rs.15 how many toffees do you get?

Answer tomorrow. Have a great day :)

Happy birthday!

Best wishes to Shruti on her birthday, July 21. Many happy returns!

Birthday greetings

Greeting Raji Sriram on her birthday.  Many happy returns!
Vimala and Jayaraman

Birthday greetings

Greeting Rajani and Koushik on their birthday, July 15.  Many happy returns!
Vimala and Jayaraman

PSC's birthday

     Remembering Appa (PSC) on his birthday, July 13.  Recalling with gratitude the values he taught us by example - unfailing courtesy and consideration for others, fortitude, sense of humour and a zest for life. And wishing I had another opportunity to show him our love and respect for him.


Jayaraman

I am dying...

Husband texts to wife on cell..

"Hi, what r u doing Darling?"

Wife: I'm dying..!

Husband jumps with joy but types "Sweet Heart, how can I live without U?"

Wife: "U idiot! I'm dying my hair.."

Husband: "Bloody English Language!

Have a great day :)

Higgs Boson

Thank you, Aishwarya, for taking the trouble and throwing some light on the Boson.  It is amazing how the thrust for knowledge drives some people to persist in their quest.  Wish Higgs finds an uncle in the Nobel Committee!

God's Particle

Our newspapers and news channels are so full of discovering Higgs Boson (Oh yes, the facebook, too). I had asked my friend, a researcher at Northwestern Univ, to explain in the simplest possible way. She had written me a mail and I found it pretty interesting. Copy-pasting it here. But despite ruthlessly cutting down a good number of words, I couldn't make the write-up any shorter. "Our current understanding of the basic building blocks of the universe is the "Standard Model" of particle physics. It is a mathematical theory which basically says that all the matter ("stuff" that makes up you, me, planets, stars and everything that we can see) and their interactions (forces like electrostatic attraction and repulsion) are made up of a few fundamental particles. This theory was built up starting from the formulation of quantum mechanics in 1920s and completed as a full-fledged description in the 1970s. According to the "Standard Model", there are a set of 12 fundamental particles out of which atoms and all matter is built up. These include the electron, the quarks (which are inside protons and neutrons found in the nuclei of atoms) and some exotic particles like neutrinoes. These are truly fundamental particles in the sense that they can't be broken down into simpler components. Further, the theory says that interactions between these particles (forces between matter) are carried by another set of 4 fudamental particles, which includes the photon (electric and magnetic forces, carrier of light), W- and Z-bosons (responsible for radioactivity) and gluons (responsible for holding quarks together inside protons and neutrons). This set of 16 particles (12 + 4) completely describes all visible matter in the universe and their interactions. Just a note here that the Standard Model does not describe the gravitational force (which attracts two massive objects towards each other and makes the planets orbit around the sun). Physicists have not been able to come up with a consistent theory of gravity which is compatible with quantum mechanics, the foundation on which the Standard Model is constructed. So the Standard Model describes everything except gravity, and we sort of have a separate theory of gravity. The two have not been made mathematically consistent with each other yet. The Standard Model is the most successful scientific theory ever. It has been tested by various experiments over the past 50 years to unprecedented accuracy. The theory has predicted the existence of various particles and phenomena, and experiments have found them years later. All the 16 fundamental components have been experimentally verified. So everything has been great. Except for one thing, one pretty major thing. In the simple version of the Standard Model, these 16 fundamental particles are all massless (that have zero mass) and all travel at the speed of light. But this is not what we observe in nature. Some of them are massless (like the photon and gluons), but all the others have been measured to have widely ranging masses. The electron is very light but has a non-zero mass. The lightest quark has a mass almost the same as the electron, but the heaviest quark has a mass 100,000 times that of the electron. What gives fundamental particles mass of such a wide range? What endows particles with mass? This was the question that the original Standard Model failed to address. In the 1960s, six different theoretical physicists (one of which was the Englishman Peter Higgs) working at different places tried to answer this question. They postulated that all of space is filled with this "field" which interacts with the fundamental particles. Think of it as sand or some viscous liquid like honey. Over time, for some reason this became popularly known as the "Higgs field". The basic idea is that fundamental particles moving through space are like beads being pulled through honey. Light particles like the electron interact with this field negligibly, so can fly across space fast and have less mass. Massless particles like the photon donot see this field at all. Heavy particles feel a massive drag from this field and acquire a large mass. The Higgs field (which permeates all of space, from inside the atoms making up you and me to the farthest galaxies) seemed to be a good mathematical description and a good explanantion for why particles have mass. In accordance with quantum mechanics, this Higgs field was supposed to be composed of fundamental particles called Higgs bosons. So in order to explain why particles have mass, the Standard Model had to include one more component to the earlier 16, the Higgs boson. And this was the only component not confirmed by experiments, until now. With the discovery of the Higgs, the Standard Model stands complete as the decription of physical reality in the visible universe (with the exception of gravity of course). The final piece of the puzzle. A true testament to human endeavour that we can understand so much about the workings of nature given that we ourselves are a product of it. Regarding the term "God-particle", most physicists really consider it as a misnomer. It was coined by a Nobel prize winning physicist, Leon Lederman, in his popular science book of the same name. I guess he sort of equated the importance of the Higgs, which endows all particles with mass, to something akin to a God who endows the universe with its properties. The popular media is of course just waiting for a catchy phrase like this, and jumped on the bandwagon. The Higgs and its discovery doesn't really say anything about the existence or non-existence of God (if you can define the term "God" in the first place). Lastly, scientists - unlike the media - are very careful regarding their claims and discoveries. So the status right now is that they say that a "Higgs-like" particle has been discovered. The only certain thing they are claiming is that a new particle has been discovered. Experiments so far suggest that it is most likely the Standard Model Higgs, but to confirm that more data is required. There are also various different versions of the Higgs theory (in one case, there are 5 different Higgs bosons postulated) and it is not yet clear which exactly the discovered particle corresponds to. To summarize, a great achievement for humankind and a cause for celebration and reflection. However, the quest for deeper knowledge continues in earnest!"

Best Wishes

Our hearty congratulations and bestest wishes to Ramesh anna on his new role

A very happy birthday to Sowmya akka.

Rukku athai and KN athimber are in Chennai now. We got to spend some time with them during the weekend. Was good to meet them after a long time

Happy birthday

Best wishes to Sowmya on her birthday, 7 July.  Many happy returns!
Vimala and Jayaraman

Ramesh moves to Delhi soon

Perfetti Van Melle India appoints Ramesh Jayaraman as MD

By exchange4media News Service
Monday,Jul 02, 2012

 0 0    

Perfetti Van Melle, the confectionery giant will shortly be appointing Ramesh Jayaraman as the Managing Director of Perfetti Van Melle India. Prior to this, Jayaraman was the Managing Director of PVM’s businesses in Sri Lanka and Bangladesh. He will take over this responsibility from Sameer Suneja who has been promoted to a global role as Executive Vice President – Innovation and Business Development.

Suneja will now be based in Netherlands, having a larger responsibility in the global operation of the company and will report to the Global CEO of Perfetti Van Melle.

Jayaraman is well respected for his extensive skills and knowledge across all functions of the company. His leadership has been a key driver in transforming the company’s operations and sustained growth in Sri Lanka and Bangladesh markets.

He is a graduate of XLRI Jamshedpur. In India, he worked for Cadbury and Britannia in the marketing area. He also had a brief stint with Ogilvy and Mather. From early 1999, he has worked mainly outside India, and his assignments have taken him to China, France, Egypt, Bangladesh and Sri Lanka.

Prior to joining Perfetti Van Melle in 2006, Jayaraman was Project Director India for Danone, and the Deputy Managing Director of Yakult Danone India, a joint venture between Groupe Danone and Yakult Honsha of Japan.

Suneja who now moves on to this international assignment has been with Perfetti for more than 15 years in various capacities. During his tenure in India he played a key role in the company’s distinguished growth and has been heading the Indian business for the past four years. During his tenure, the company forayed into the snacks category in India, thus becoming the first subsidiary in the group to diversify into non-confectionery segment.

In his new role as Executive Vice President – Innovation and Business Development, Suneja will identify and eventually develop projects in different markets related to new product ideas and exchanging cross-group successful experiences in the marketing and commercial fields.

Suneja has also been accredited as one of ‘India’s Hottest Young Marketers’ in 2005 by Brand Equity and one of ‘India’s Hottest Young Executives’ in 2008 by Business Today.

Happy birthday!

Happy birthday, Ramesh!
Vimala and Jayaraman
3 July 2012