Friday, 17 March 2017

`Supermassive' black hole rocketing through space at 5 million miles per hour: 


`Supermassive' black hole rocketing through space at five million miles an hour, Nasa reveals Hubble Space Telescope image shows it being pushed around galaxy by gravitational waves eight billion light-years from Earth Black holes are the big bullies of space. They're so massive that their gravity doesn't let any light escape.The biggest black holes, called “supermassive“, weigh as much as a billion suns. Looming at the centre of seemingly every galaxy, including the Milky Way, they control the formation of stars and can deform the fabric of space-time itself. It takes a lot to push a black hole around.
But eight billion light-years from Earth, in a galaxy called 3C 186, astronomers have discovered a supermassive black hole that got kicked off its throne. Now it's rocketing through space at a speed of almost 5 million miles an hour. There's one thing that could unseat a supermassive black hole in this manner, the researchers say: gravitational waves.
First predicted by Albert Einstein more than 100 years ago, gravitational waves are ripples in space-time caused by the universe's most cataclysmic events ­ just as concentric circles form on the surface of a pond after you toss in a heavy rock. Last year, researchers at the Laser Interferometer Gravitational-Wave Observatory (LIGO) showed that this phenomenon exists when they detected gravitational waves produced by the merger of two black holes. In a paper that will publish next week in the journal Astronomy & Astrophysics, Marco Chiaberge and his colleagues say that the weird behaviour of the black hole in galaxy 3C 186 is likely the result of gravitational waves from another pair of colliding black holes.
The roving black hole was detected in an image taken by Nasa's Hubble Space Telescope. The fuzzy splotch that was galaxy 3C 186 contained an incredibly bright spot, a quasar. This wasn't unusual: a quasar is the nucleus of a galaxy, and it's bright because of the disk of gas that surrounds the black hole at its centre.
What caught Chiaberge's eye was the quasar's location, 35,000 lightyears from the centre of its galaxy.“We were seeing something very peculiar,“ he said in a Nasa release.
Chiaberge, who works at the Space Telescope Science Institute (STScI) and Johns Hopkins University, asked fellow astronomers for their observations from a range of other instruments, including the Chandra space observatory and the Sloan Digital Sky Survey's telescope in New Mexico. The former measures X-rays, the latter specialises in detecting redshift, the stretching of light that is detected as something travels through space. Their observations confirmed the Hubble finding. They also helped pin down the black hole's mass (equal to that of a billion suns) and the speed at which the gas around it was travelling (4.7 million mph).

Thursday, 23 February 2017

Trump takes a complete U-turn on BREXIT: - Donald Trump says he is ‘totally in favour’ of ‘wonderful’ European Union


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Donald Trump has described the European Union as “wonderful” and said he is “totally in favour of it”, despite having in the past praised Britain as “smart” for pursuing Brexit.
The US President, who has made no secret of his dislike of the Brussels bloc, said he had “very good relations with the EU, but I thought that the UK would pull out of Brexit and I was right”.
“The EU, I’m totally in favour of it. I think it’s wonderful, if they’re happy. If they’re happy – I’m in favour of it,” he said.
Mr Trump’s about-turn follows previous criticisms levelled at the 28-member bloc for acting as a “vehicle for Germany”.
He has also predicted that other member states would leave the EU. Mr Trump said during an interview in January: “You look at the European Union and it’s Germany. Basically a vehicle for Germany. That’s why I thought the UK was so smart in getting out.”
White House chief strategist and close aide to Mr Trump Steve Bannon is also understood to be an ardent Eurosceptic, reportedly telling one German diplomat during a recent meeting that the EU was a flawed concept.
He also suggested the US under Mr Trump favoured conducting bilateral negotiations.
But Vice President Mike Pence has attempted to strike a different tone, saying during a recent visit to Europe that he and the President looked forward to working with the EU to “deepen our political and economic partnership”.
Leaders of the EU have raised their own concerns about Mr Trump’s suspicion of Brussels, with Martin Schulz, the former president of the European Parliament, describing his election victory as a “very difficult moment” for the continent.

Sunday, 22 January 2017

THE EFFECTS OF HIGH CHOLESTEROL ON THE BODY

Our bodies need healthy levels of cholesterol to function. Cholesterol is a fatty substance made by the liver and distributed throughout the body. It allows our bodies to make vitamin D and hormones, and makes up bile acids. We also get less than 25 percent of our body’s cholesterol from the foods we eat, especially animal fats.
High cholesterol means you have a lot more cholesterol in your blood than you need. Most people who have high cholesterol don’t have any obvious symptoms. A simple blood test can tell you if you have high cholesterol. If you do have high cholesterol, dietary changes, exercise, and targeted medications can help lower it and reduce your risk of developing heart disease.

Circulatory System

Cholesterol moves through your bloodstream via lipoproteins. There are two kinds of lipoproteins, and we need them both. Low-density lipoproteins (LDL) transport cholesterol around to where it’s needed. If there’s too much cholesterol, it may be deposited into the arteries. LDL is commonly referred to as “bad cholesterol.” High-density lipoproteins (HDL) take the extra cholesterol from your tissues and cells and return it to your liver for repurposing. That’s why HDL is called “good cholesterol.”
The job of the arteries is to move blood from your heart to other parts of your body. Too much LDL and not enough HDL makes it more likely that your arteries will develop plaque, a hardened mixture of cholesterol, fat, and other elements.
As coronary arteries narrow, it’s harder for blood to make it through to your heart. If an area of plaque breaks open, it can result in a blood clot, which can block blood flow altogether. This puts you at great risk of having a heart attack. Symptoms of reduced blood supply to the heart include chest discomfort, pressure, and pain (angina). You may also have pain in your jaw, neck, shoulders, arms, or back. Angina can be mistaken for indigestion.
If blood flow to one section of heart muscle is blocked, the result is a heart attack. That means the heart muscle is dying. Blood flow has to be restored fast, or there’s a risk of permanent heart damage or death.
When plaque builds up in the arteries that carry blood to your brain, your brain is deprived of oxygen. Brain cells quickly become damaged and start to die (stroke). Symptoms include sudden weakness and numbness. Depending on the area of the brain involved, you may have trouble speaking, seeing, or moving your limbs. A stroke can cause brain damage, disability, or death.
Plaque can also build up and interfere with blood flow to your arms and legs (peripheral arterial disease). If the blood supply to your limbs is blocked, you may feel numbness or pain. There’s an increased risk of infection in those limbs. Lack of blood can cause tissue death (gangrene).

Digestive System

High cholesterol can create a bile imbalance, leading to gallstones. According to the National Digestive Disease Information Clearinghouse, more than 80 percent of gallstones are cholesterol stones.
A buildup of plaque in your arteries can also block blood flow to your kidneys and stomach. Intestinal ischemic syndrome is when there’s a blockage in arteries leading to the intestines or bowel. Symptoms include abdominal pain, nausea, vomiting, and bloody stools.

Sunday, 15 January 2017

What is the first impression means.....!

A Harvard psychologist says people judge you based on 2 criteria when they first meet you!
People size you up in seconds, but what exactly are they evaluating?
Harvard Business School professor Amy Cuddy has been studying first impressions alongside fellow psychologists Susan Fiske and Peter Glick for more than 15 years, and has discovered patterns in these interactions.
In her new book, "Presence," Cuddy says that people quickly answer two questions when they first meet you:
Can I trust this person?
Can I respect this person?
Psychologists refer to these dimensions as warmth and competence, respectively, and ideally you want to be perceived as having both.
Interestingly, Cuddy says that most people, especially in a professional context, believe that competence is the more important factor. After all, they want to prove that they are smart and talented enough to handle your business.
But in fact, warmth, or trustworthiness, is the most important factor in how people evaluate you.
"From an evolutionary perspective," Cuddy says, "it is more crucial to our survival to know whether a person deserves our trust."
It makes sense when you consider that in cavemen days it was more important to figure out if your fellow man was going to kill you and steal all your possessions than if he was competent enough to build a good fire.
But while competence is highly valued, Cuddy says that it is evaluated only after trust is established.And focusing too much on displaying your strength can backfire.
She says that MBA interns are often so concerned about coming across as smart and competent that it can lead them to skip social events, not ask for help, and generally come off as unapproachable.
These overachievers are in for a rude awakening when they don't get a job offer because nobody got to know and trust them as people.
Cuddy says:
If someone you're trying to influence doesn't trust you, you're not going to get very far; in fact, you might even elicit suspicion because you come across as manipulative. A warm, trustworthy person who is also strong elicits admiration, but only after you've established trust does your strength become a gift rather than a threat.

Tuesday, 10 January 2017

Why do flights take longer to fly West than East?

The flights take 5 hours to go West-East on this journey, but is taking about 7 East-West. The reason for the difference is an atmospheric phenomena known as the jet stream. The jet stream is a very high altitude wind which always blows from the West to the East across the Atlantic. The planes moving at a constant air speed thus go faster in the West-East direction when they are moving with the wind than in the opposite direction.
Every planet/moon has global wind that are mostly determined by the way the planet/moon rotates and how evenly the Sun illuminates it. On the Earth the equator gets much more Sun than the poles. resulting in warmer air at the equator than the poles and creating circulation cells (or "Hadley Cells") which consist of warm air rising over the equator and then moving North and South from it and back round.
The Earth is also rotating. When any solid body rotates, bits of it that are nearer its axis move slower than those which are further away. As you move north (or south) from the equator, you are moving closer to the axis of the Earth and so the air which started at the equator and moved north (or south) will be moving faster than the ground it is over (it has the rotation speed of the ground at the equator, not the ground which is is now over). This results in winds which always move from the west to the east in the mid latitudes.

Sunday, 8 January 2017

Eggs and cholesterol

There are some facts about cholesterol that the majority of the public does not know and even some doctors seem to have forgotten because it has been so long since they learned about them in the early years of medical school.
a) cholesterol is an animal product from the catabolism of heamoglobin. As plants do not have blood, they produce phytosterols which inhibit cholesterol absorption in the guts. The claim "no cholesterol" on labels of plant-base food is non-sense, a commercial trick.
b) Human body needs quite a lot of cholesterol and manufactures about 1g daily (with a total body amount of 35g), and mother Nature gives us the ability to recycle most of the cholesterol from the guts.
c) cholesterol is produced by the liver and secreted into the gallbladder, stored there under the form of bile salts. When the stomach content moves down to the upper portion of the small intestine, it triggers a contraction of the gallbladder which forces the bile into the guts. The bile salts (with their cholesterol component) are water soluble and can be easily absorbed through the blood vessels in the intestine wall, then into the blood.
d) on the other hand, the cholesterol in the food are under the esterified forms, not water soluble and not easily absorbed through the intestine wall. Most of them ends up to be food for the gut bacteria.
d) consequently, most of the cholesterol in our blood comes from ourselves, less than 20% come from food.
e) go ahead and enjoy egg, butter, crustaceans (crab, shrimp, lobster ...) because the recommendations about them the last 50 years concerning cholesterol have been wrong on biochemical and physiological basis.
*** for people who want to lower cholesterol but don't know what to believe, these are other tidbits:
a) as the largest source of cholesterol comes from bile. the most logical way to reduce cholesterol is to prevent the bile salts from being absorbed.
b) soluble fiber in grains and fruits is the most effective and SAFE weapon to do that because the bile salts adsorb (with a d, not b) onto the fiber, cannot be released to be absorbed (with a b) and will be eaten by the bacteria or .... pooped out.
c) this is the caveat: as bile is not secreted into the guts all day long but only in spurts (especially during meals high in lipid), eating high fiber in the form of oat meal or high fiber cereal once a day in breakfast is non-sense, mainly because that breakfast is fat-free, that is without egg, bacon, butter!
So, the best way to lower cholesterol inexpensively, without a doctor visit or a prescription is to go to the pharmacy, ask for one of the fiber caplet or pill available OTC and take one of them three times daily WITH EACH MEAL.
If your blood cholesterol does not drop in few weeks, you can think about asking your doctor for extended-released niacin or a statin. 50% of my patients did not need anything beyond a high fiber diet and only 30% more needed a fiber supplement.
Further reading
Daily egg consumption in hyperlipidemic adults - Effects on endothelial function and cardiovascular risk. Valentine Njike, Zubaida Faridi, and David L Katz

Tuesday, 1 November 2016

The 36 Questions That Lead to Love

1. Given the choice of anyone in the world, whom would you want as a dinner guest?
2. Would you like to be famous? In what way?
3. Before making a phone call, do you ever rehearse what you're going to say? Why?
4. What would constitute a perfect day for you?
5. When did you last sing to yourself? To someone else?
6. If you were able to live to the age of 90 and retain either the mind or body of a 30-year old for the last 60 years of your life, which would you choose?
7. Do you have a secret hunch about how you will die?
8. Name three things you and your partner appear to have in common.
9. For what in your life do you feel most grateful?
10. If you could change anything about the way you were raised, what would it be?
11. Take four minutes and tell you partner your life story in as much detail as possible.
12. If you could wake up tomorrow having gained one quality or ability, what would it be?
13. If a crystal ball could tell you the truth about yourself, your life, the future or anything else, what would you want to know?
14. Is there something that you've dreamt of doing for a long time? Why haven't you done it?
15. What is the greatest accomplishment of your life?
16. What do you value most in a friendship?
17. What is your most treasured memory?
18. What is your most terrible memory?
19. If you knew that in one year you would die suddenly, would you change anything about the way you are now living? Why?
20. What does friendship mean to you?
21. What roles do love and affection play in your life?
22. Alternate sharing something you consider a positive characteristic of your partner. Share a total of five items.
23. How close and warm is your family? Do you feel your childhood was happier than most other people's?
24. How do you feel about your relationship with your mother?
25. Make three true "we" statements each. For instance, "we are both in this room feeling..."
26. Complete this sentence "I wish I had someone with whom I could share..."
27. If you were going to become a close friend with your partner, please share what would be important for him or her to know.
28. Tell your partner what you like about them: be honest this time, saying things that you might not say to someone you've just met.
29. Share with your partner an embarrassing moment in your life.
30. When did you last cry in front of another person? By yourself?
31. Tell your partner something that you like about them already.
32. What, if anything, is too serious to be joked about?
33. If you were to die this evening with no opportunity to communicate with anyone, what would you most regret not having told someone? Why haven't you told them yet?
34. Your house, containing everything you own, catches fire. After saving your loved ones and pets, you have time to safely make a final dash to save any one item. What would it be? Why?
35. Of all the people in your family, whose death would you find most disturbing? Why?
36. Share a personal problem and ask your partner's advice on how he or she might handle it. Also, ask your partner to reflect back to you how you seem to be feeling about the problem you have chosen.

Sunday, 7 February 2016

How do I become mentally stronger?

Here’s very simple 6 top tips for you:
1. Eat the elephant.
How do you eat an elephant? One bite at a time. Take insurmountable goals and break them down into smaller objectives.
2. Use visualisation.
Run vivid scenarios of yourself succeeding over and over inside your heads. This maximizes the chance of success when the time comes.
3. Practice emotional control.
Use breathing techniques such as the “4 by 4 for 4” (4 seconds in, 4 seconds out for 4 minutes) to keep your stress levels under control.
4.Use self talk.
Reframe external events in a positive light. Understand that it is not the EVENT but their INTERPRETATION that matters.
5. Celebrate small victories.
See the beauty of small victories in tough times. This keeps morale high so they can keep fighting the good fight.
6. Value your tribe.
Care for their team. Lose the tribe and you lose everything.
The techniques are important, but actually executing them is even more so. 💯🔝

Monday, 15 April 2013

Aromatherapy: A pseudoscience ?

Aromatherapy usually involves the application of diluted essential (volatile) oils via a gentle massage of the body surface. The chemist Rene-Maurice Gattefosse (1881-1950) coined the term ‘aromatherapy’ after experiencing that lavender oil helped to cure a severe burn of his hand. In 1937, he published a book on the subject: Aromathérapie: Les Huiles Essentielles, Hormones Végétales. Later, the French surgeon Jean Valnet used essential oils to help heal soldiers’ wounds in World War II.
Aromatherapy is currently one of the most popular of all alternative therapies. The reason for its popularity seems simple: it is an agreeable, luxurious form of pampering. Whether it truly merits to be called a therapy is debatable.
The authors of this systematic review stated that they wanted to critically assess the effect of aromatherapy on the psychological symptoms as noted in the postmenopausal and elderly women. They conducted electronic literature searches and fount 4 trials that met their inclusion criteria. The findings demonstrated that aromatherapy massage significantly improves psychological symptoms in menopausal, elderly women as compared to controls. In one trial, aromatherapy massage was no more effective than the untreated group regarding their experience of symptoms such as nervousness.
The authors concluded that aromatherapy may be beneficial in attenuating the psychological symptoms that these women may experience, such as anxiety and depression, but it is not considered as an effective treatment to manage nervousness symptom among menopausal women. This finding should be observed in light of study limitations.
In the discussion section, the authors state that to the best of our knowledge, this is the first meta-analysis evaluating the effect of aromatherapy on the psychological symptoms. I believe that they might be mistaken. Here are two of my own papers (other researchers have published further reviews) on the subject:
  1. Aromatherapy is the therapeutic use of essential oil from herbs, flowers, and other plants. The aim of this overview was to provide an overview of systematic reviews evaluating the effectiveness of aromatherapy. We searched 12 electronic databases and our departmental files without restrictions of time or language. The methodological quality of all systematic reviews was evaluated independently by two authors. Of 201 potentially relevant publications, 10 met our inclusion criteria. Most of the systematic reviews were of poor methodological quality. The clinical subject areas were hypertension, depression, anxiety, pain relief, and dementia. For none of the conditions was the evidence convincing. Several SRs of aromatherapy have recently been published. Due to a number of caveats, the evidence is not sufficiently convincing that aromatherapy is an effective therapy for any condition.
  2. Aromatherapy is becoming increasingly popular; however there are few clear indications for its use. To systematically review the literature on aromatherapy in order to discover whether any clinical indication may be recommended for its use, computerised literature searches were performed to retrieve all randomised controlled trials of aromatherapy from the following databases: MEDLINE, EMBASE, British Nursing Index, CISCOM, and AMED. The methodological quality of the trials was assessed using the Jadad score. All trials were evaluated independently by both authors and data were extracted in a pre-defined, standardised fashion. Twelve trials were located: six of them had no independent replication; six related to the relaxing effects of aromatherapy combined with massage. These studies suggest that aromatherapy massage has a mild, transient anxiolytic effect. Based on a critical assessment of the six studies relating to relaxation, the effects of aromatherapy are probably not strong enough for it to be considered for the treatment of anxiety. The hypothesis that it is effective for any other indication is not supported by the findings of rigorous clinical trials.
Omitting previous research may be odd, but it is not a fatal flaw. What makes this review truly dismal is the fact that the authors fail to discuss the poor quality of the primary studies. They are of such deplorable rigor that one can really not draw any conclusion at all from them. I therefore find the conclusions of this new paper unacceptable and think that our statement (even though a few years old) is much more accurate: the evidence is not sufficiently convincing that aromatherapy is an effective therapy for any condition.

Wednesday, 10 April 2013

HOW TO DEFINE CONSCIOUSNESS—AND HOW NOT TO DEFINE CONSCIOUSNESS

HOW TO DEFINE CONSCIOUSNESS—AND HOW NOT TO DEFINE
CONSCIOUSNESS

Max Velmans, Goldsmiths, University of London, New Cross, London SE14 6NW; email
m.velmans@gold.ac.uk; http://www.goldsmiths.ac.uk/psychology/staff/velmans.php
Journal of Consciousness Studies, 16(5), 2009, pp 139-156

Abstract. Definitions of consciousness need to be sufficiently broad to include all examples of
conscious states and sufficiently narrow to exclude entities, events and processes that are
not conscious. Unfortunately, deviations from these simple principles are common in
modern consciousness studies, with consequent confusion and internal division in the field.
The present paper gives example of ways in which definitions of consciousness can be either
too broad or too narrow. It also discusses some of the main ways in which pre-existing
theoretical commitments (about the nature of consciousness, mind and world) have intruded
into definitions. Similar problems can arise in the way a “conscious process” is defined,
potentially obscuring the way that conscious phenomenology actually relates to its neural
correlates and antecedent causes in the brain, body and external world. Once a definition of
“consciousness” is firmly grounded in its phenomenology, investigations of its ontology and
its relationships to entities, events and processes that are not conscious can begin, and this
may in time transmute the meaning (or sense) of the term. As our scientific understanding of
these relationships deepen, our understanding of what consciousness is will also deepen. A
similar transmutation of meaning (with growth of knowledge) occurs with basic terms in
physics such as "energy", and "time."

Why is it difficult to define consciousness?

As George Miller wrote in 1962, "Consciousness is a word worn smooth by a million tongues."
Almost 50 years later, little has changed. The term means many different things to many
different people, and no universally agreed "core meaning" exists. This is odd, as we each have
"psychological data" about what it is like to be conscious or to have consciousness to serve as
the basis for an agreed definition.

This uncertainty about how to define consciousness is partly brought about by the way global
theories about consciousness (or even about the nature of the universe) have intruded into
definitions. In classical Indian writings such as the Upanishads, consciousness is thought to be
the essence of Ātman, a primal, immanent self that is ultimately identified with Brāhman—a
pure,transcendental, subject-object-less consciousness that underlies and provides the ground
of being of both Man and Nature (Sen, 2008). In the classical Western tradition, "substance
dualists" such as Plato and Descartes bifurcated the universe, believing it to consist of two
fundamental kinds of stuff, material stuff and the stuff of consciousness (a substance
associated with soul or spirit). Following the success of the brain sciences and related sciences,
20th Century theories of mind in the West became increasingly materialistic, assuming physical
“stuff” to be basic, and consciousness in some way “supervenient” or dependent on the
existence of physical forms. For example, "property dualists" such as Sperry (1969) took
consciousness to be a special kind of property that is itself non-physical, but which emerges
from physical systems such as the brain once they attain a certain level of complexity. Taking
materialism to its logical conclusion, "reductionists" such as Crick (1994) and Dennett (1991)
argued consciousness to be nothing more than a state or function of the brain. Within
cognitive psychology, there were many similar reductive proposals which identified
consciousness with some aspect of human information processing, for example with working
memory, focal attention, a central executive, or a “global workspace”(e.g. Baars, 1988).
It should be apparent that these wide-ranging disparities arise more from pre-existing
theoretical commitments (about the nature of consciousness, mind and world) than from the
everyday phenomenology of consciousness itself. In the modern literature, for example,
Dennett provides a prominent example of the triumph of materialist theory over
phenomenological evidence when he tried to deny the very existence of phenomenal qualities
(as normally understood). He made this perfectly clear when he writes: "Philosophers have adopted various names for the things in the beholder (or properties of the beholder) that have been supposed to provide a safe home for the colours and the rest of the properties that have been banished from the external world by the triumphs of physics:raw feels, phenomenal qualities, intrinsic properties of conscious experiences, the qualitative content of mental states, and, of course, qualia, the term I use.

There are subtle differences in how these terms have been defined, but I am going to ride roughshod over them. I deny that there are any such properties. But I agree wholeheartedly that there seem
to be." (Dennett, 1991, p372 - my italics)

Dennett arrives at this view by presupposing that information about brain and behaviour
obtained from a third-person perspective is scientific and reliable, while first-person data about
conscious experience tells us nothing about its ontology at all.1
European phenomenology and classical Indian philosophy assume the opposite to be true. Accordingly, their investigations of consciousness have been primarily phenomenological.2 Within modern consciousness studies there are also many intermediate theoretical positions with associated research paradigms that take both the existence of the material world and the existence of
I have given a detailed critique of this aspect of Dennett’s position that I do not have space to repeat here (see Velmans, 2001, 2007a, 2009 chapter 5); see also Zahavi (2007), Beenfeldt (2008).
See Gallagher, 2007, Zahavi, 2007 for recent reviews of European phenomenological approaches.
Note however that classical Indian conclusions about the nature of consciousness arise largely from altered conscious states consequent on prolonged periods of meditation, and this can be an additional source of confusion when comparing Eastern and Western understanding of everyday conscious phenomenology. The pure, contentless consciousness said to be experienced in such states is, in various writings, thought to underly all of Nature, which makes this a claim about what in the West is sometimes referred to as “the ground of being” or, in Kantian terms, “the thing in itself,” rather than a claim about the forms of “phenomenal consciousness,” that are more usually investigated in modern consciousness studies. consciousness seriously, for example viewing first- and third-person investigations of the mind/brain as complementary sources of information about its nature.

It should come as no surprise that such diverse assumptions about the nature of consciousness and howwe can study it have created divisions between research communities that can be difficult to cross. There can, for example, be no point of convergence and certainly no consensus between
researchers who take the existence of conscious phenomenology to be both self-evident and
ontologically primary, with those who give no credence to that phenomenology at all.

Given this diversity, some consciousness researchers have doubted that a systematic study
of “consciousness” as such, is even possible. Sloman (1991) for example argued that "people who
discuss consciousness delude themselves in thinking that they know what they are talking about...it's
not just one thing but many things muddled together"—rather like our "multifarious uses of ‘energy’
(intellectual energy, music with energy, high energy explosion, etc.)", and Stanovich (1991) complained that "the term "consciousness" fractionates into half a dozen or more different usages." For him, “consciousness” is a "botched concept"; a psychiatric institution is too good for it—and it deserves the "death penalty." Given this, they suggest that one can make no generalisations about it.
The obvious counterargument is that there is nothing to prevent discussion and organised research into aspects of “consciousness” denoted by a given, specific usage of that term. The multiple uses of the term “energy” in natural language have not in any way impeded a systematic study of energy in physics.

Similarly, the flourishing of consciousness studies over the last 20 years has made it clear that, despite its diverse referents in natural language, a systematic study of “consciousness” is both possible and actual. For research to proceed, all one needs is a sufficiently well-specified use of the term for a
community of researchers to agree that they are investigating the same thing.

To what does the term "consciousness" refer?

But where should we begin? As with any term that refers to something that one can observe
or experience it is useful, if possible, to begin with an ostensive definition, i.e. to "point to" or
"pick out" the phenomena to which the term refers and, by implication, what is excluded.
Normally we point to some thing that we observe or experience. The term “consciousness”
however refers to experience itself. Rather than being exemplified by a particular thing that we
observe or experience, it is exemplified by all the things that we observe or experience.
Something happens when we are conscious that does not happen when we are not
conscious—and something happens when we are conscious of something that does not
happen when we are not conscious of that thing. We know what it is like to be conscious when
we are awake as opposed to not being conscious when in dreamless sleep. We also know what
it is like to be conscious of something (when awake or dreaming) as opposed to not being
conscious of that thing.

This everyday understanding of consciousness based on the presence or absence of
experienced phenomena provides a simple place to start. A person, or other entity, is
conscious if they experience something; conversely, if a person or entity experiences nothing
(See Velmans 1991b, 2007b for introductions to this form of “psychological complementarity”, and readings in Varela & Shear ( 1999), Velmans (2000), Jack & Roepstorff (2003, 2004) they are not conscious. Elaborating slightly, we can say that when consciousness is present, phenomenal content (consciousness of something) is present. Conversely, when phenomenal content is absent, consciousness is absent. This stays very close to everyday usage and it provides a simple place of departure on which widely diverging theories can agree.It also makes sense to stay as close as possible to everyday, natural language usage for related terms. In common usage, the term
"consciousness" is often synonymous with "awareness", "conscious awareness", and
“experience”. For example, It makes no difference in most contexts to claim that I am
"conscious of" what I think, "aware of" what I think, "consciously aware" of what I think, or
that I can “experience” what I think. Consequently, to minimise confusion, it is important not
to load these terms with added meanings that are peculiar to a given theoretical position.6
This applies equally to the “contents of consciousness”. The "contents of consciousness"
encompass all the phenomena that we are conscious of, aware of, or experience. These
include not only experiences that we commonly associate with ourselves, such as thoughts,
feelings, images, dreams, body sensations and so on, but also the experienced three dimensional world (the phenomenal world) beyond the body surface.

Some important distinctions

However some terminological distinctions are important. In some older writings, for example
in the work of Descartes, "consciousness" is not clearly differentiated from "mind." Given the
extensive, current evidence for preconscious and unconscious mental processing, this usage is too broad. How phenomenal consciousness relates to preconscious and unconscious mental
processing is now a major topic for psychological research. To avoid confusion, and to enable
such research, it is important to reserve the term "mind" for psychological states and processes
that may or may not be "conscious".

Descartes also famously believed thought to epitomise the nature of consciousness, and
consequently defined it as a “substance that thinks” (res cogitans), which distinguishes it (in his
view) from material substance that has extension in space (res extensa). Modern psychology
accepts that verbal thoughts (in the form of phonemic imagery or ‘inner speech’) are amongst
It is worth noting that Eastern philosophies refer to a state of "pure consciousness," without any phenomenal contents (Shear & Jevning, 1999, Shear, 2007), although many characterisations are nevertheless offered of this state, such as sat-chit-ananda (being-consciousness-bliss) in Hindu thought, or sunyata (emptiness) in Mahayana Buddhism (Fontana, 2007). As these possibilities do not have a direct bearing on the problems of defining consciousness within the Western discourse, we can safely leave them to one side for now, without dismissing them.

Even eliminative/reductive theories such as Dennett’s agree that that conscious phenomenology seems to exist, and this provides the point of departure for their attempts at phenomenal elimination/ reduction. For example in some theories "awareness" is thought of as a form of low-level consciousness that is distinct from full consciousness. This is not a serious problem for the present proposal, provided that the situation described has some phenomenal content (for example where one is dimly aware of a stimulus). However serious confusions can arise in situations where the term "awareness" is applied to situations where there is no relevant phenomenal content, for example, when "awareness" refers to preconscious information processing, or worse, to the non-conscious information processing which accompanies consciousness (as proposed by Chalmers, 1995). In the present usage, being "aware of" non-conscious information processing is a contradiction in terms. (See, for example, Dixon (1981), Kihlstrom (1987), Velmans (1991b), Reber (1993), Wilson (2002), Goodale & Milner (2004), Jeannerod (2007), Kihlstrom, Dorfman & Park (2007), Merikle (2007)
the contents of consciousness. However it does not accept that thoughts exemplify all conscious contents. Unlike thoughts, pains, tactile sensations, itches and other body experiences appear to have both spatial location and extension in different regions of the body, and the sights and sounds of the experienced external world (the phenomenal world) appear to have locations and extensions in a surrounding three-dimensional space.

These interoceptive and exteroceptive experiences also differ widely from each other and many
descriptive systems have been developed for investigating their phenomenology (in studies of
visual and auditory perception, emotion, pain, and so on). It should be evident that such
developments in phenomenology are an essential first step in characterising what it is about
consciousness that needs to be explained—and that restricting the phenomenology of
“consciousness” to the phenomenology of “thought” is too narrow.

In other, more modern writings, "consciousness" is sometimes taken to be synonymous with
"self-consciousness". As one can be conscious of many things other than oneself (other people,
the external world, etc.), this usage is also too narrow. To allow a clear distinction between
consciousness of oneself and consciousness of things other than oneself, it makes more sense
to reserve the term “self-consciousness” for a special form of reflexive consciousness in which
the object of consciousness is the self or some aspect of the self.

The term "consciousness" is also commonly used to refer to a state of wakefulness. Being
awake or asleep or in some other state such as coma clearly influences what one can be conscious of. However these global states have a complex relationship to phenomenal consciousness. When sleeping, for example, one can still have visual and auditory experiences in the form of dreams. Conversely, when awake there are many things at any given moment that one does not experience. So in a variety of contexts it is necessary to distinguish "consciousness" in the sense of "phenomenal consciousness" from wakefulness and other states of arousal, such as dream sleep, deep sleep, and coma. Finally, "consciousness" is sometimes used to mean "knowledge", in the sense that if one is conscious of something one also has knowledge of it. This is an important feature of consciousness (that I do not have space to examine here).

However, at any moment, much knowledge is unconscious, or implicit (for example, the knowledge gained over a lifetime, stored in long-term memory). So consciousness and knowledge cannot be co-extensive.

It is widely accepted that many experienced phenomena have apparent location. Whether there is also a sense in which such phenomena also have a real spatial location and extension (in the phenomenal body and external world outside the brain) is a fundamental, contested issue within current consciousness studies that goes beyond the scope of the present paper. Detailed evaluations of the competing arguments are given in Velmans (2008, 2009 chapter 7).

It remains useful to distinguish the various global conditions for the existence of consciousness (for example the differences between being awake, in dream sleep, dreamless sleep, and deep coma) from the added conditions which determine its varied phenomenal contents (for example having visual rather than auditory experiences). However, for the purposes of finding an agreed, core definition of phenomenal consciousness from which investigations can proceed, it makes sense to retain the convention that unless one is conscious of something one is not conscious. Conversely if one is conscious of something (e.g. while dreaming) one is conscious.

Phenomenal consciousness enables a special kind of knowledge: To be conscious of something is to know it in a way that makes itsubjectively real. Bertrand Russell called this “knowledge by acquaintance”, which he contrasted with the more abstract “knowledge by description” provided by verbal descriptions. This important, first-person function of phenomenal consciousness and its relation to the many proposed, third-person functions of consciousness is discussed in detail in Velmans (2009 chapters 12, 13, and 14).

The above, broad definitions and distinctions have been quite widely accepted in the
contemporary scientific literature (see, for example, Farthing, 1992; readings in Velmans, 1996,
Velmans & Schneider, 2007)—although by no means universally, as we will see below. Agreeing on definitions is important. Once a given reference for the term "consciousness" is fixed in its phenomenology, the investigation of its nature can begin.

How not to define consciousness

As noted above, reductionists and non-reductionists adopt fundamentally differing
assumptions about the ontology of consciousness and there are many instances where these
differing assumptions about ontology have intruded into how phenomenal consciousness
has been defined. It is common for example for reductive physicalists and functionalists to
take it for granted that an advanced form of brain science will ultimately demonstrate
phenomenal consciousness to be nothing more than a state or function of the brain. If so,
nothing would be lost by defining it in that way. However most theories of consciousness
that resist a reduction of conscious phenomenology to brain states and/or functions fully
accept that there is an intimate relationship between consciousness and brain. What is at
stake is the nature of this intimate relationship. For example, physicalist, functionalist,
naturalistic dualist and modern dual-aspect theories agree that, in humans, every distinct
conscious experience is likely to be accompanied by distinct, correlated conditions in the brain
(the neural correlates of consciousness or NCC), but naturalistic dualist, and dual-aspect
theories resist the reduction of phenomenal consciousness to brain states. Dual-aspect theory
for example suggests that conscious experiences and their correlated brain states are how the
mind appears when viewed from respectively first- and third-person perspectives, and that
these aspects of mind are complementary and mutually irreducible (see e.g. Velmans, 1991b,
2009 chapter 13).

If so, the discovery of the neural correlates of given experiences will not settle the fundamental differences amongst these theories. Nor would the discovery of antecedent neural causes settle these differences. To achieve a genuine reduction, conscious experiences would have to be shown to be ontologically identical to their neural causes and/or correlates. Discovery of the neural causes and or correlates would not achieve this for the simple reason that causation, correlation and ontological identity are fundamentally different relationships.

In short, no ontological view is automatically privileged by the likely advance of science, and,
given the far-reaching consequences of reductionism and its alternatives it is important not to
define phenomenal consciousness in a way that presupposes the outcome of this debate, or
finesses it in favour of one outcome or another. Unfortunately, this practice is widespread
both in common culture13 and in the scientific and philosophical literature. Dennett, Searle,
Chalmers (1996) provides a naturalistic dualist analysis of how conscious experiences relate to brain states that is similarly non-reductionist.

If A is identical to B, then B is identical to A (symmetry) and all the properties of A and B must be identical (Leibniz’s law). If A correlates with B, then B correlates with A (symmetry), but it does not follow that all the properties of A and B must be identical (correlation need not obey Leibniz’s law). If A causes B, it neither follows that B causes A, nor that the properties of A and B are identical (neither symmetry, nor Leibniz’s law)— for a fuller discussion see Velmans (1998, 2002, 2009 chapter 3). For example newspaper reports of PET or fMRI scans producing ‘pictures of conscious thoughts’, emotions etc. in the brain are ubiquitous, completely oblivious of the fact that these are actually indirect measures of activities that correlate with the experiences in question rather than pictures of the experiences themselves,

Block, and Baars provide a few prominent examples (amongst many). As noted above,
Dennett simply declares first-person access to phenomenal qualities to have no place in
third-person science, and, therefore, no ultimate place in an understanding of consciousness at all! Searle (2007), by contrast, fully accepts that conscious states have special phenomenal properties, for example that they are intentional (about something), subjective, and private (viewable only from a first-person perspective)—all characteristics that traditionally distinguish the mental from the physical. However he then simply declares such facts about consciousness to be ‘objective physical facts’ about the brain, thereby reducing the domain of the “mental” to a subclass of what is “physical” by an act of redefinition—but leaving the problem of how objects such as brains could produce such intentional, subjective, private states untouched. Block (1995) also entirely accepts the
existence of phenomenal consciousness (with its special properties). However, he argues
that there is another kind of consciousness, which he terms “access consciousness” that
enables “information access” in the central nervous system, thereby giving consciousness a
major role to play in the brain’s activities. While this avoids reducing phenomenal
consciousness to a function of the brain, this redefinition of information access as “access
consciousness” risks inflating a brain function to a conscious status that it does not possess.

Information access and information availability have been widely recognised aspects of
human information processing since the advent of cognitive psychology in the 1960’s, and it
is true that information which enters phenomenal consciousness can be accessed,
rehearsed, entered into long-term memory, used for the guidance of action and so on.
However, the processes that actually enable information access, rehearsal, transfer to longterm memory and guidance of action are not themselves conscious (if they were there would be no need to subject such processes to detailed investigation within cognitive psychological research—see Velmans, 1991a). In short, “access consciousness” is not actually a form of consciousness. The conscious part of “access consciousness” is just phenomenal consciousness, and the processes that enable access to items in phenomenal consciousness are not conscious at all.

How to define a “conscious process”

For the purposes of definition, the importance of retaining an initial, clear distinction between
information processing and the conscious experiences that may or may not accompany it becomes
evident as soon as one reflects on the very different ways that the term “conscious process” has
been used in the literature. In Velmans (1991a) I have argued that the psychological and
philosophical literature confounds three distinct senses in which a process might be said to be
“conscious.” It might be conscious:
(a) in the sense that one is conscious of the process
(b) in the sense that the operation of the process is accompanied by consciousness (of its
results) and and completely oblivious of the fact that the phenomenology of a subject’s experiences cannot be viewed from a third-person perspective (the classical philosophical problem of “other minds”).
(c) in the sense that consciousness enters into or causally influencesthe process.

We do not have introspective access to how the preconscious cognitive processes that enable
thinking produce individual, conscious thoughts in the form of “inner speech.” However, the
content of such thoughts and the sequence in which they appear does give some insight into
the way the cognitive processes (of which they are manifestations) operate over time in
problem solving, thinking, planning and so on. Consequently such cognitive processes are
partly conscious in sense (a), but only in so far as their detailed operation is made explicit in
conscious thoughts, thereby becoming accessible to introspection.

Many psychological processes are conscious in sense (b), but not in sense (a)—that is, we are
not conscious of how the processes operate, but we are conscious of their results. This applies
to perception in all sense modalities. When consciously reading this sentence for example you
become aware of the printed text on the page, accompanied, perhaps, by inner speech
(phonemic imagery) and a feeling of understanding (or not), but you have no introspective
access to the processes which enable you to read. Nor does one have introspective access to
the details of most other forms of cognitive functioning, for example to the detailed operations
which enable “conscious” learning, remembering, engaging in conversations with others and so
on.

Crucially, having an experience that gives some introspective access to a given process, or
having the results of that process manifest in an experience, says nothing about whether that
experience carries out that process. That is, whether a process is “conscious” in sense (a) or (b)
needs to distinguished from whether it is conscious in sense (c). Indeed, it is not easy to
envisage how the experience that makes a process conscious in sense (a) or (b) could make it
conscious in sense (c). Consciousness of a physical process does not make consciousness
responsible for the operation of that process (watching a kettle does not determine when it
comes to the boil). So, how could consciousness of a mental process carry out the functions of
that process? Alternatively, if conscious experience results from a mental process it arrives too
late to carry out the functions of that process.

How not to define a “conscious process”

It is nevertheless common for theorists to contrast human information processing that is either
accompanied or not accompanied by a conscious experience, and then attribute any functional
differences in processing to the activities of consciousness. Indeed Baars & McGovern (1996)
explicitly advocate this method (which they call “contrastive analysis”) for determining the
functions of consciousness. As they point out, the brain has hundreds of different types of
unconscious specialised processors such as feature detectors for colours, line orientation and
faces, which can act independently or in coalition with one another, thereby bypassing the
limited capacity of consciousness. These processors are extremely efficient, but restricted to
their dedicated tasks. The processors can also receive global messages and transmit them by
‘posting’ messages to a limited-capacity, global workspace whose architecture enables systemwide integration and dissemination of such information. Such communications allow new links
to be formed between the processors, and the formation of novel expert ‘coalitions’ able to
work on new or difficult problems. Once processes enter the global workspace they ‘become
conscious’, and Baars & McGovern assume the functions of the global workspace to be the
functions of consciousness. Within their model, the global workspace is essential for
organising novel, complex activities. Given this, it is not surprising that they find many things
for phenomenal consciousness to do. For example:

  1. By relating input to its context, consciousness defines input, removing its ambiguities in perception and understanding.
  2. Consciousness is required for successful problem solving and learning, particularly where novelty is involved.
  3. Making an event conscious raises its “access priority,” increasing the chances of successful adaptation to that event.
  4. Conscious goals can recruit subgoals and motor systems to carry out voluntary acts.
  5. Making choices conscious helps to recruit knowledge resources essential to arriving at an appropriate decision.
  6. Conscious inner speech and imagery allow us to reflect on and, to an extent, control our conscious and unconscious functioning.
  7. In facing unpredictable conditions, consciousness is indispensable in allowing flexible responses.

“In sum, consciousness appears to be the major way in which the central nervous system
adapts to novel, challenging and informative events in the world” (Baars & McGovern, 1996,
p92).

Global workspace theory provides one of the best, current models of brain functions closely
associated with consciousness. Given this, why should an identification of consciousness with
the operations of the global workspace present a problem? For Baars, a third-person account
of consciousness in terms of information in a global workspace is an account of subjective
experience—that is, it is an account of consciousness as such (Baars, 1994, 2007). But the
difficulties of incorporating first-person, phenomenal consciousness within a third-person
account of information processing in this way are well illustrated by Baars’ many different
attempts to grapple with this issue:

In his earlier writings, Baars (1991) equated consciousness with focal attention, arguing that
they “covary so perfectly, we routinely infer in our everyday life that they reflect a single
underlying reality.” Later, however, Baars (1997a) modified his position to viewing attention as
the “gatekeeper” for the global workspace and therefore the gatekeeper to consciousness.
Thus, “attention creates access to consciousness”, but “consciousness is needed to create
access to unconscious processing resources”, and “... we can create access to any part of the
brain using consciousness.” (Baars, 1997b, p296; see also Baars et al, 1997) In short,
consciousness is now thought to carry out the many functions which require global access to
unconscious processing resources such as system-wide integration and dissemination of
information, the formation of new links between unconscious processors, and so on (and this
remains his position, as noted above). Unfortunately, in his summary of his 1997b position,
Baars once again shifts his position (to one different to that outlined in the body of his paper)
now stressing that, “In the view presented here, global access may be a necessary condition for consciousness; but in the nature of science we simply do not know at this time what would be the truly sufficient conditions.” (p308)

If global access is a necessary (but not sufficient) condition for consciousness, then global
access is causally antecedent to consciousness. However, if consciousness creates global
access, then consciousness is causally antecedent to global access. Baars tries to have it both
ways. Nor does he consider the three ways in which a process can be said to ‘be conscious’,
with their very different consequences for the functions of consciousness. Such confusions
illustrate the need to analyse the precise relation of conscious phenomenology to its
associated information processing with care. Phenomenal consciousness in humans is
unquestionably related to certain forms of information processing in humans. However
reductive redefinitions of consciousness in terms of the processing with which it is associated
impedes a clear analysis of how phenomenal consciousness actually relates to its associated
processing, thereby obscuring rather than clarifying its role in the economy of mind.

Conclusion

There is far more to be said about consciousness and its characteristics (see e.g. Velmans,
2009). However this brief, introductory paper is intended merely to deal with some
preliminary issues regarding how to approach and how not to approach its definition.
Hopefully, the above makes it clear that consciousness understood as phenomenal
consciousness provides a secure departure point for scientific and philosophical
investigations of its nature. Conversely, theories of consciousness that do not in some way
deal with its phenomenology are not theories of consciousness.

Maybe consciousness will ultimately be shown to be nothing more than a state or function
of the brain—and maybe it won’t. That is, after all, what much of the current debate is
about. But it is a mistake to define consciousness in a way that begs this question. It is a
mistake to claim that one is investigating phenomenal consciousness directly when one is
investigating its neural causes and correlates. And it is similarly a mistake to presume
phenomenal consciousness to be identical to the operations of some aspect of information
processing with which it is associated, for example the operations of a “global workspace.”
The mistake in these instances is one of premature closure. If one makes up one’s mind
about the ontology of phenomenal consciousness before fully investigating how its
phenomenology relates to processing in the brain and surrounding world, one precludes a
deeper understanding of that ontology. Conversely, no research is impeded by remaining
open.One can for example investigate the neural causal antecedents and correlates of given
conscious states whether one is a physicalist, a naturalistic dualist or a dual-aspect theorist.
Once a given reference for the term "consciousness" is fixed in its phenomenology, the
investigation of its nature can begin, and this may in time transmute the meaning (or sense) of
the term. As Dewey (1910) noted, to grasp the meaning of a thing, an event or situation is to
see it in its relations to other things—to note how it operates or functions, what consequences
follow from it, what causes it, and what uses it can be put to. Thus, to understand what
consciousness is, we need to understand what causes it, what its function(s) may be, how it
relates to non-conscious processing in the brain, and so on. As our scientific understanding of
these matters deepens, our understanding of what consciousness is will also deepen. A similar
transmutation of meaning (with growth of knowledge) occurs with basic terms in physics such
as "energy", and "time."

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