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Science communication is important in today's technologically advanced society. A good part of the adult community is not science savvy and lacks the background to make sense of rapidly changing technology. My blog attempts to help by publishing articles of general interest in an easy to read and understand format without using mathematics. You can contact me at ektalks@yahoo.co.uk

Tuesday 31 October 2017

Orbital Period Decrease of Binary Pulsar PSR B1913+16 - an Update


Recent detection of gravitational waves (GW) by LIGO has provided a direct and firm test of the validity of Einstein's theory of general relativity.  GWs detected in August 2017 were produced by the collision of two neutron stars about 130 million light years from the Earth.  Neutron stars had a diameter of about 20 km but were 1.17 and 1.60 times more massive than our Sun.  Some of the mass is converted into energy as the neutron stars spiralled  to merger.  This energy was radiated in the form of particles, electromagnetic (EM) and GW waves.  EM waves were detected by a number of observatories and GW were detected by the LIGO laboratories.

Indirect evidence of the validity of the General Theory had been accumulating over the past 100 years starting in 1919  when Eddington observed the bending of light from a distant star passing near the Sun.  The light was found to bend by the amount predicted by Einstein.  

The strongest evidence was obtained through the observation on binary pulsars - two neutron stars rotating around each other.  The first binary pulsar system, PSR B1913+16, was detected by Joseph Taylor and Russell Hulse in 1974.  They were awarded the 1993 Nobel Prize for finding the pulsar system. 

The two neutron stars in the binary pulsar are 1.438 and 1,390 times the mass of our Sun.  The binary pulsar PSR B1913+16 is 21000 light years from the Earth. The elliptical orbit has an eccentricity equal to 0.617 and a semi-major axis equal to 1.95 million km.  The neutron stars complete a rotation in 7 hours and 45 minutes.  The rotation distorts spacetime in the vicinity and energy is radiated out as gravitational waves.  Einstein's theory predicts the exact amount of GW radiation that would be emitted.  The radiated energy is lost from the rotational energy of the binary pulsar system and neutron stars get progressively closer. The observed change in orbit parameters (the semi-major axis is decreasing by 3.5 meters per year) provides the point of comparison with the prediction of the General Theory. It is estimated that it will take about 300 million years before the neutron stars merge.  

Continued observations of the binary pulsar has provided valuable data that have been published in a series of papers - the latest by Weisberg and Huang in The Astrophysical Journal 829:55, 20 September 2016.  The new data confirms the previous agreement with the General Theory.  This is shown in the following slide:

Several other binary pulsars have been studied since the discovery of PSR B1913+16.  Observations from these also confirm the validity of the General Theory of Relativity, albeit with somewhat lower accuracy.

I am indebted to Professor Joseph Taylor for permission to use the orbital decay figure.

Monday 30 October 2017

The Disease Called Obesity - What is it? - Why? - Can it be Controlled? A Community Education Feature


Obese people are up to 80 times more likely to develop type 2 diabetes than those with a BMI of less than 22                        ...DiabetesUK

In 2013 the American Medical Association started clas­sifying obesity as a disease, a decision that still generates debate. The American Heart Association, the College of Cardiology, and the Obesity Society have also announced that obesity should be treated as a chronic disease.

Obesity is a global phenomenon: After tens of thousands of human generations since evolution, obesity worldwide has only become widespread in the past 50 years - increasing more than six-fold since 1975 - the obesity epidemic came with astonishing speed.  Obesity is expected to get much more prevalent over the coming decades with 2 in 3 adults turning obese in some countries by 2030.  A good animation  of how obesity has spread globally since 1972 may be seen here. 

You are obese if you weigh 20% or more than the normal weight for your height -  i.e. if you have a body mass index (BMI) greater than 30. BMI is calculated by dividing your weight by the square of your height.  A BMI of 30 makes you obese - the acceptable range is 19 to 25.

To be obese is like carrying a 15 kg suitcase everywhere you go - traveling or not !!   Morbidly obese carry 50 kg extra weight 24 hours a day.  What the extra baggage does to your body is not difficult to guess.


Following slides summarize the situation:

In the table, numbers are in millions; Obese in blue and severely obese in red:

More and more children are getting obese too - at a much faster rate than adults!



Obesity is not good for you; obese people have increased  risk of many medical conditions like:
High Blood Pressure, Diabetes, Gout, Heart disease, Strokes, some Cancers, Joint problems, Osteoarthritis, Breathing problems, problems with sleep, Gallstones and more.  
The association between obesity and depression is also well established. 
For obese people, a higher BMI indicates that they are more likely to have medical problems and of greater severity.  In the slide above, we have seen massive increases in the number of severely obese people (with BMI greater than 35) and this does not portend well for global health. I show the projections of how obesity is expected to increase in future: 


The most comprehensive analysis of the relationship between BMI and mortality has been carried out by the Global BMI Mortality Collaboration which involves 500 investigators from over 300 institutions.  They analysed 4 million individuals who never smoked and had no existing chronic diseases at the start of the study.  Data from 10.6 million participants from 239 studies conducted between 1970 and 2015 in 32 countries formed the database.  A total of 1.6 million deaths were recorded during this period.  In the four continents studied, the association of both overweight and obesity with higher mortality were broadly consistent.  
The slides summarize the results (In the slides, Hazard Ratio HR is a measure of mortality risk: an HR of 2 for a BMI group means that the risk of dying is two times the risk for the reference group shown by down-pointing arrows) 




An alternate way of looking at the data is provided by a recent analysis, published in the journal Nature (2017), of over 600,000 people.  It concludes that a unit increase in the BMI value reduces lifespan by 7 months.  Obese (BMI = 30) will lose 3 years while morbidly obese (BMI = 40) will lose 9 years in lifespan. This is an eye-opener.

It is not only that the risk of mortality is greatly increased for obese people, their quality of life is also seriously impaired.

It is clear to me that obesity is a scrouge for global wellbeing and it is imperative that we find ways to control it.  I shall show in the following that the prevailing obesogenic environment coupled with Big Food interests creates a toxic mix that prevents effective measures to be put in place for rolling back what some people call the obesity pandemic.

Many initiatives have indeed been tried by authorities with little or no impact on obesity numbers. It seems that the problem of obesity, with all its negative impacts, is not going to go away.  In the following, first we shall try to understand the reasons that have caused the obesity numbers to get out of hand, why measures to control it have failed  and then look at the options we have.

Why is Obesity Increasing?  With all the problems with obesity, why is it not controlled?  Only a very small percentage of the population was obese fifty years ago.  It must be avoidable except in the few who suffer from certain medical conditions.  Obesity is a recent phenomenon and we need to look at the changes in society since about 1960.

Obesity is not natural - if we look around, we find that it is only the humans and their pets who are obese. We do not see obese animals in the wild.  

Increase in obesity is a multifaceted issue and depends on the prevailing socio-economic environment. I can think of some factors like globalization, industrial practices, changes in food products, eating habits, lifestyle changes - all of which affect the way we live and eat. 

On the simplest level, weight gain is determined by the following energy equation:
Weight Gain = Calories In - Calories Out
 We are indeed consuming more calories now than we were fifty years ago.  In the USA, average daily energy intake has increased by over 420 Calories or roughly 20% since 1970.  This translates into a gain of 4 pounds per month or about 20 kg per year.  The situation in many middle-income countries like China and India is even more serious where they have been changing over to western style diet of much greater processed food and ingredients containing greater proportions of fat and sugar.  
Consumption of sugar has gone up enormously over the past 300 years and is some four times higher than the WHO guideline of 50 gm per day; (see also). Obesity rates shown in the slide are for non-hispanic white population in USA in the age range from 60 to 69 years.
    
A word of caution here about inferring that sugar caused the increased obesity - while there is some correlation in increased sugar consumption and rise in obesity;  this does not prove that sugar is the only factor responsible for this increase. For a healthy balanced diet, I do feel that sugar intake should not be greater than the guideline of 50 gm/day - this will indeed require a big change in the choices of food we make today. To reduce sugar consumption below 50 gm/day is very very difficult and is not a practical proposition.

Since the middle of the twentieth century, many factors have affected the way we live and the way we eat our food.  Lifestyle changes have been enormous.  Traditionally, families used to eat out one or two times per week.  Now, 50% of our meals are eaten in restaurants.  Even food cooked at home is largely precooked and purchased in supermarkets.  These meals are high in salt, sugar, fats and preservatives - they also contain much higher calories than home cooked meals prepared from fresh ingredients.  
When families eat out, they consume more calories than when eating at home.  The food in restaurants tends to have more bad calories of fat and sugar.  (Click on the slide to see full page image)

The obvious question one asks - why do people consume more bad calories when they know that this will make them obese in the long term?  Surveys have shown that even obese people do not generally like the way other obese people look.  Many normal build persons definitely feel rather poorly about obese people, and at times are verbally and on occasions known to be even physically  aggressive towards obese people (obesity or weight stigma - more on this later).  Most obese want to lose weight - they go on diets - but find it difficult if not impossible to lose weight.  It is not a matter of self control - obese definitely would prefer to get slimmer but they just do not seem to be able to shed the extra weight.  We need to look at other factors that are fueling the obesity epidemic.
I shall discuss a few reasons that obesity numbers have taken off since 1970.  The addictive nature of high sugar foods and adoption of an increasing more sedentary and stressful life-style are big hurdles in reducing obesity numbers. We also live in an obesogenic environment where food manufacturers, restaurants and supermarkets encourage us to consume more processed foods which are rich in fat and sugar content and have taste/flavour enhancers. Globalization has helped to spread the obesity epidemic to developing countries (1 2) which were relatively free from this problem.
Obesity and Addiction: To understand how sugar can be addictive, let us see how addiction is defined:
Addiction is a primary, chronic disease of brain reward, motivation, memory and related circuitry 
In addiction, the brain chemistry is altered in a way that it compels one to repeat a substance or activity despite harmful consequences.  (note the emphasis on harmful)
There is an increasing body of research that tells us that sugar could be as addictive as cocaine.  Sugar activates the reward centre in our brain much the same way that drugs do and provoke similar cravings, binging and withdrawal symptoms.  
Eating too much of sweet or fatty foods can cause long term changes in the brain circuits that control eating behaviour.  

Drugs have been used by humans for a very long time - historically chewing leaves of certain plants to relieve pain.  However, It appears that our brain circuitry evolved to promote food intake for survival and drug addiction is really hijacking some of these pathways.  

The addictive nature of sweet and fatty foods is widely accepted by professionals.  I give some links that go into more details of the mechanisms of addiction and worth a look to appreciate the similarity between drug abuse and obesity.  The links are: 1   2   3.
Obesity and Stress:  
Understanding Stress:  Stress is a condition where an environmental demand exceeds the natural regulatory capacity of an organism.  In an organism, most biochemical processes strive to maintain equilibrium (homeostasis - the organism's optimal condition for living); an ideal condition.  Environmental factors, internal or external stimuli continually disrupt homeostasis. Factors causing an organism's condition to diverge too far from homeostasis can be experienced as stress - factors like moving house or job, prolonged starvation, death of a loved one etc. can create a stress situation.  Both acute and chronic stress can lead to changes in behaviour and physiology resulting in conditions like depression, delusions and anxiety.
Stress levels have been increasing over recent times; A study claims that stress levels have soared by 30% in the past 30 years in USA.  
Much research is being carried out to understand link between stress and obesity.  A 2011 study reached the following conclusions:  When under stress 
  • the food reward system overrules homeostatic eating behaviour 
  • overweight subjects show increased 'wanting' of dessert and snacks
  • overweight subjects show increased energy intake in the absence of hunger 
An individual under stress is more at risk to falling prey to addiction and obesity

Genetic factors to obesity and stress response.....
https://www.medscape.com/viewarticle/887443

Obesity and Sedentary Life-Style:  Modern man spends 50-70% of his waking hours in  sedentary activity  - defined as activity conducted in a sitting or reclining position involving low energy expenditure.  25-45% of waking hours are spent in performing low intensity physical activity and less than 5% in medium/high intensity physical activity.  A typical American is sitting down for about 60% of the waking hours
Humans, as hunter-gatherers, evolved when they were engaged in prolonged physical activity;  modern lifestyle of excessive sedentary behaviour poses an independent risk factor for a wide range of medical problems such as obesity, diabetes mellitus, poor cardiovascular health and more. 
Generally, one gains weight if energy expenditure is less than the energy intake and we are now consuming more calories than ever before.  Sedentary life-style is characterized by low energy expenditure and is also implicated in the rise of obesity in the past 50 years or so.
But this is not the whole story.  The harm done by sedentary behaviour is not completely neutralised by consuming fewer calories or increasing medium to high physical activity during rest of the day - it is an independent risk factor.  It is recommended that during prolonged sitting periods, one takes short breaks to walk in order to reduce such risks. 
Obesity and Type 2 Diabetes: Obesity is a major factor in developing type 2 diabetes accounting for 80-85% of the risk.  Type 2 diabetes is a metabolic disorder that results in hyperglycemia (high blood glucose levels).  This is because in type 2 diabetes, the body (a) becomes ineffective at using insulin it has produced (insulin resistance) and/or (b) is unable to produce enough insulin. Over time, high blood glucose levels may damage the organs of the body.

Obesity and The Big Food:  The world has got into an impossible vicious circle.  The powerful food industry with a big purse worth several billion dollars to advertise their products and with far-reaching lobbying powers is hell-bent to increase their profits - selling sugar and fat loaded foods has proved successful in the past and there is not a lot of evidence that things are changing.  We have seen that giving up addiction to high calorie convenience meals is difficult to cure.  
Besides Big Food, other industries have sprung up in the past fifty years or so and benefited from the obesity pandemic.  The weight-watchers industry, dieting, gyms, drug manufacturers are some which readily come to mind.  Their numbers have exploded - professing to control your weight and make you healthier - but obesity and related health ailments have continued to rise in line with the profits they make.  
The Stigma of Obesity:  We live in a judgmental society - for better or worse - there is much pressure to look slim (BMI < 20 ??) with negative attributes assigned to overweight and obese people - attributes such as lazy, work shy, undisciplined, lacking will power and more.  Obesity stigma is prevalent in our society.  Health professionals, family members, media all are guilty of stigmatizing obese people.  A prevailing view is that it is the personal responsibility of the overweight to bring things under control and failure to lose weight is their fault - nobody else is there to blame.  Faced with this environment, it is not surprising that obese people feel let down and find it stressful and depressing to get on with their normal lives.
It is important that we, in the society, have a better understanding of obesity and empathize with obese people for the predicament they are in. 

How to Control Obesity: I do not think anybody has a complete answer but there are some obvious things that one can do to help the situation. Remember that childhood obesity is increasing at the fastest rate and excessive body fat causes physiological/metabolic changes which persist into adulthood.  As adults, today's obese children will find it even harder to lose weight.  We might not have seen the worst of the situation yet. Any measures to control obesity must address the childhood obesity.


One is up against the industrial giants who can outspend well-minded people - they also have 'expert' representations in the regulatory bodies who make the rules.  Somehow, the governments have to bring out binding regulations for food products - they did succeed in curbing smoking in public places although alcohol abuse has not been managed yet.  


Governments have to spend much more money in tackling obesity.  In the long run, the reduced cost of treating obesity related illnesses will more than compensate the extra spending directed to curb the problem.


Any measures aimed to reduce obesity must ensure that they do not require a serious sudden lifestyle change.  Weight reduction must be a gradual long term process otherwise the stress created by adjusting to a new routine will make it difficult to achieve success.  Reducing calorie intake must be a part of any weight reduction programme; but one only needs to reduce calories by say 10 or 15% each day to achieve significant benefits over the period of a few years.  


Some Obvious Measures: 
1.  Education/Awareness: Absolutely essential that the person involved understands what the problem is, what one wants to achieve and what her/his options are to do that. Also important to understand how the human body metabolizes food, calorie content of foods etc. - essentially a simple course in nutrition will be helpful. 
2.  Exercise: More physical activity must be encouraged. Free gym membership for obese people will help too.  But the main message has to be for the general public to appreciate the need to control weight by being more active and adopting a less sedentary lifestyle.
3. Regulatory Framework: Food advertising, labeling, marketing, pricing are all parts of regulatory framework.  Other measures like curbs on display of energy dense food in supermarkets, near schools etc will help. 
4. Foods to Avoid: People should be encouraged to avoid eating foods with lot of fat and sugar content and change to eating more fruits and vegetables. 

Reducing weight should be a stress free process otherwise it is bound to fail.  I have published some ideas how to lose weight in a stress free manner. 

There is only so much one can do in terms of education and regulation.  Eating is an individual choice - food has become more affordable; and has been made more addictive by Big Food.  It is a vicious cycle.  Personal responsibility, for what you eat and what weight you are, is important but not always under your control.

I would love to hear your thoughts on what can be done to control obesity. 

Sunday 22 October 2017

Self-taught AlphaGoZero is the Best GO Player Ever !!

This is a truly amazing development...

On 15 March 2016, I had posted the following blog (click on it to go there)

Another Step towards Achieving Artificial General Intelligence: AlphaGo triumphs over the World Champion of the Game GO

GO is an ancient Chinese board game (458 BC) that is far more complex than Chess.  In March 2016, the program AlphaGo defeated the reigning world champion Lee Se-Dol in 4 out of 5 games.  Lee had remarked:  "I don't know what to say ... I kind of felt powerless".  AlphaGo has since had more notable successes.  
To beat world champions at the game of GO, the computer program AlphaGo had relied largely on supervised learning from millions of human moves - moves in GO that previous human players had used.

David Silver and colleagues have now produced a system called AlphaGoZero, an evolution of AlphaGo, that is the strongest GO player yet.  AlphaGoZero has defeated champion-beating AlphaGo with a score of 100 to 0 - 100% of the time!
The new program AlphaGoZero is based purely on reinforced learning and learns solely from self-play. Starting from completely random play, AlphaGoZero learns to play from scratch, simply by playing games against itself.  
It can reach superhuman level in just a couple of days training involving several million games of self-play.  It can now beat all previous versions of AlphaGo. 

It also learns quickly - It surpassed the version used to beat world GO champion Lee in 3 days of self learning.  
This is superhuman performance indeed!

David Silver explains his work in this youtube video.

The Editor of Nature writes:  Because the program has discovered the same fundamental principles of the game that took humans centuries to conceptualize, the work suggests that such principles have some universal character beyond human bias.

AlphaGoZero represents the evolution of computer programs (artificial intelligence - AI) from ANI (aritificial narrow intelligence) towards AGI (artificial general intelligence)(Click here to see my blog on how we define intelligence).

ANI is a task specific program and it works in a narrow domain with just a few simple rules.  In the game of GO, the domain is a 19 x 19 board (361 spaces) and the rules are very simple.  The program can explore all combinations of that small space by trying out and remembering the outcomes of millions of moves in a day.  This would be impossible for humans to achieve.  The program has far surpassed human capabilities in this regard. But, while excelling in the game of GO, AlphaGoZero is helpless if asked to do anything else - that is where it does not satisfy the AGI test.   ANI - yes; AGI - no.

The self learning aspect of the program is highly significant - this represents a breakthrough from the way computer programs have been developed in the past.  As the task rules and domains expand in scope, some sort of intelligence is bound to materialize from the complexity, and that will be a serious step towards achieving AGI - an intelligence par with humans. 

This will take time; But - remember exponential increase in technological progress.  The future may be a lot closer than we think!

Tuesday 3 October 2017

Albert Einstein and the Theory of Relativity - A Science Outreach Course at Strathclyde Unversity, and East Kilbride


Today, we celebrate the award of Nobel Prize for the detection of Gravitational Waves (GW) to Rainer Weiss of MIT, Barry Barish and Kip Thorne of Caltech.  Along with Ron Drever (1931 - March 2017), they were the founders of the Laser Interferometer Gravitational-Wave Observatory (LIGO) which detected GW for the first time in 2015.
Almost 100 years ago, Einstein's general theory of relativity had predicted that some of the energy of violent astrophysical phenomena would radiate out gravitational waves but the detection of GW has been difficult because  the size of disturbance GW would produce at the Earth is very very small.  Instruments in Washington State and in Louisiana simultaneously observed GW signals originating from two massive black holes spiraling to become one some 1.3 billion years ago! It is estimated that three solar masses were converted into GW in less than a second.

The VIDEO  How to detect gravitational waves - LIGO Simply Explained  is worth a look too.  It does a great job of explaining the operation of the LIGO instrument in three minutes.

This week a third interferometer (called VIRGO) in Italy was involved with LIGO to observe another GW signal and it seems that GW detection is ready to take off as a completely new way of observing some unique features of the Universe.

Indirect evidence for gravitational waves has been accumulating since 1919 when Eddington observed bending of light from a distant star by the Sun in accordance with the predictions of the general theory. A landmark discovery by  Taylor and Hulse of the binary pulsar PSR B1913+16 allowed observations leading to the most rigorous test of the general theory.  Binary pulsars are two neutron stars rotating round each other - according to the theory of general relativity they will radiate energy in the form of GW and this can be estimated by the change in their rotational energy. 

More on Gravitational Waves may be found here


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In the following I provide links to my talks at the Life Long Learning Centre at the University of Strathclyde and also at East Kilbride James Watt Auditorium.  The talks are suitable for most people with a school background in science and were prepared to celebrate Albert Einstein's life and work.  
Please click on the lines below to see the slides of the talk


Special Theory of Relativity (Part 1) - a Course for the 'Inquisitive' Layman






Einstein arrived at the scene when physics was going through a difficult time.  Classical Theory was very successful in describing the world around us but there were some really serious problems where the classical theory failed completely in a way that was quite fundamental.  A new way of looking at things was needed - Einstein's theories of relativity and quantum mechanics provided that.  In the following I describe Einstein's early life and some of the problems with classical physics.  This material is provided to supplement the four talks on the Special and General Theories of Relativity.

Albert Einstein Early Life 1879 to 1905


















Sunday 1 October 2017

Blogger Profile - Ravi Singhal


For List of Blogs and Courses, click here

About Me:

My name is Ravi Singhal.  I am a physicist who retired from active research in 2006.  
I graduated from the University of Lucknow, India with an MSc in physics in 1964; and in 1970, I completed my PhD in Nuclear Physics at the University of Saskatchewan, Saskatoon, Canada.  I have been in Glasgow, Scotland since 1970 teaching and doing research at Glasgow University. 
Currently, I am an Honorary Research Fellow in the School of Physics and Astronomy at GU. 
My research interests have covered nuclear and laser physics and I have published nearly 200 research papers in peer reviewed journals.  
After my retirement in 2006, I started 
a community education forum called 
Science for All with the express aim 
to reach the adult population in areas 
in Scotland.  

In the past few years, my emphasis has shifted more to writing blogs.  I do, however, give talks by invitation at various forums.  I do not charge a fee for giving talks and endeavour to achieve the maximum audience.

About the Blog:
My blog has been active for the past ten years.  The whole thing started with my retirement in 2006 after 36 years at Glasgow University teaching physics and researching first in nuclear then lasers and back to a kind of synthesis of laser induced nuclear.  Research was exciting but teaching environment was not.  Retirement option came as a breath of fresh air with all the free time to do whatever I wanted.  Academic research, by its very nature, must concentrate in a narrow specialization which is good in some ways as this brings research grants and ensures survival.  The downside is that with all your time taken up by work and family, there is nothing to spare to keep up with the excitement of new things that have been happening in biology, digital sciences and everything else.  For a few years I had been feeling that there must be a better option - 40 years of research and 200 odd papers behind me, I felt that it was time to move on and open my eyes to the wider world of science and technology and everything else.
Several decisions were made on retirement:

1. I will publish research papers no more (what for?)
2. I will not attend a meeting (waste of time!) to ask for funding my activity
3. I shall not seek remunerative employment (it shackles you!)
4. I shall not tolerate nonsense from anybody (I am not looking for employment)
5. I will do my best to educate the community (selfish act - read below)

I did stick to all the above decisions. This last point was really one of the most selfish decisions that I have made. Let me explain: It is difficult to learn and retain knowledge about things that you do not have a good background in - simply because after a short period, may be a couple of months, you forget most of what you read.  The only way that I know is to teach.  When you teach a subject, you have to understand it properly and then you keep it with you for a long time.  This is what I had to do.
But who do you teach to? I had felt for a long time that the rapid progress in science and technology was creating a two tier society.  People who understand science and those who do not and for that reason are unable to even start to catch up.  This situation had existed for ever so why worry about it now?  The reason is that Science and Technology (ST) rules our lives far more now than it ever did before and things are going to get much much worse.  The new gadgets work like magic for most people and by and large they are happy to use and enjoy them. With little or no understanding of how things around them work, the vast majority of the population leave themselves open to exploitation  - by the few who control the technology.  I consider the new gadgets like drugs that intoxicate by their effect on you and leave you vulnerable to manipulation and control by others.  It is like we are sleepwalking into creating Huxley's Brave New World or worse -  we are more or less there already.

Historically, ST progressed slowly and concentrated on alleviating the hardships of daily grind.  That stage passed more than half a century ago and what we have now is an ever-increasing rate of technological advancement.  The general population might see this as a good thing that makes life more comfortable and enjoyable but slowly and surely we are seeing a shift in power in the hands of fewer and fewer individuals.

Educating the communities about ST is not straightforward.  Old science was based on common sense - you throw a ball towards a high wall and it bounces back to you.  The new science traumatizes common sense - the ball sometimes leaks through the wall on to the other side!
Our education system has taken no heed to the new reality and at age sixteen, children have learnt hardly anything about the new sciences or in many cases any science at all.  This needs to change otherwise we shall be creating a large population of Huxley's deltas and epsilons. 
Apologies for digressing - I had thought that on retirement I would teach science to the communities and with some help from Glasgow University started my ScienceforAll programme of free community talks on all sorts of subjects.  The hard work has been successful in teaching me new science but I have only been able to reach a very small audience and have to find a new way.  The first step is to publish the talks on my blog so that they are available to all.  This I am doing via my blog.  To keep track of ST in 21st Century, I endeavour to publish new research in biological, nanotechnology, robotics and artificial intelligence here - when time allows.  ST in 21st Century will affect life in many ways - our existing legal, social, cultural, religious and other structures will be totally inadequate to deal with consequences engendered by the new ST and the speed of change will be phenomenal.  How we can cope with this is not something I (or for that matter anybody else) has an answer for; but talking about it will be useful.

I am really interested to hear your views about matters relating to science.  

Please feel free to contact me on   ektalks@yahoo.co.uk

http://ektalks.blogspot.co.uk/2015/11/blogger-profile-ravi-singhal.html