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“Folks, it's time to evolve. That's why we're troubled. You know why our institutions are failing us, the church, the state, everything's failing? It's because, um – they're no longer relevant. We're supposed to keep evolving. Evolution did not end with us growing opposable thumbs. You do know that, right?”
― Bill Hicks

Pivot time

There are moments in life when you have to stop and think about the status quo, the universe around you, your journey through it that led to your current whereabouts... Whether you want to or not. Those moments that, when they occur, force even the most avid workaholic doing 120 hours a week or that over-revving fiend, on whatever upper floats his boat, to take notice and pay attention. Tally the score if you will.

And even though life these last few years has started to resemble some delightfully twisted modern rendition of Dante's La Divina Comedia, you still know when these moments hit you, without a shred of doubt. A good fat slap in the face by our cosmic joker-friend. And maybe he'll offer a little side-bet. Like Buddha found out long ago, the trick is not to care if you lose. Or better yet, realize that you can't win in the first place - not while thinking about it in those terms at least - all while fighting like a madman to win anyway. But I digress as usual.

The reason I mention all this is that a moment like this - a slap by Lady Justice herself this time; she found me being in possession of a kilo of something she herself still hasn't learned to appreciate for some reason - made me ponder how susceptible our thoughts are. (said lady made sure I had some spare time to think about these matters). To the situation, to emotion, to consequence, to preconception. We are fundamentally wired for bigotry. And we have evolution to thank for it.

Perfectionism, to the point of being pathological, is a fitting example. Its benefits in survival in our cave men-days are glaringly obvious, but today, to those who suffer from it, it can be a nuisance in the best of cases and downright crippling to those extreme, high strung, but clenched specimens out there. With a degree of pleasure, I implore all you perfectionists out there, especially those who have deluded themselves into the belief that their affliction is a merit, thus attempting to drag us down with them, to really let the following paragraph sink in.

 Compromising, an evolutionary concept

Perfection is a foreign concept to our bodies and to the evolutionary process. How could it not be, being dependent on random freak-events? Evolution doesn't work that way. Survival of the fittest cartoonIt favors whatever works best amongst available methods. Evolution doesn't choose a side. She sits back and enjoys the show, blissfully ignorant to all the possibilities out there.

Evolution is unable to go over unused methods to see if there are better ones out there. All the improvements evolution brings forth start as an error in fact: An error in the DNA copying process, that takes place when gametes (i.e. eggs or sperm cells) are created in a future mother or father, causes a mutation in its offspring's DNA. Most of these never live to see the light of day because of it. some came into the world handicapped, horribly disfigured, or mentally twisted. I mean, just take me for example...

But now and then the mutation causes a benefit to a creature's survival chances, making it more adaptable to its surroundings. This equals better chances of reproducing, and in this way, the new trait is passed along and spreads. This process happening over tens of thousands of years is what gave birth to new species - It's how the first single-celled organism, over millions of generations, eventually morphed into the mind-fuckingly complex machines that we call home. The human eye, for instance, was actually built to see under water, since the first eyes (those of sea creatures) developed there. When one of our less lazy fish-selves decided to check out the neighborhood and crawl to land, their eyes functioned only so-so on dry land, as they had been 'designed' for underwater viewing. But did nature throw away those eyes to begin evolving a new set? Of course not. Nature made due with was already there, patiently waiting for a mutation that would solve this. In view of the fact that you are able to read this article, the waiting was rewarded.

In the same fashion, going from the meta - to the micro level,  a constant and quite radical battle for precious real estate is going on in every one of our tiny little skulls. All the different factions of the human brain battling for more Lebensraum. If one part gives out or becomes useless, the others are already waiting to steal the space vacated by their former colleague. This is nicely illustrated by the heightened remaining senses often reported by people who lose one of them (given they did have the lost sense before losing it; If you are born blind your brain won't waste any space on image processing systems from the get-go). This lack of space - in part caused by the evolutionary demand for a head that would fit through a woman's pelvic bone during birth - is one of the reasons why many shortcuts are taken in the human brain.

For those who want to dive deeper into the mechanics of evolution, the crew from Kurtzgesagt summarizes it quite skillfully:

Clearly, evolution is a process of compromise: Whatever works best out of the available options (usually) is more likely to be passed on and so it does. But a winning trait can have a downside too: Our craving for foods that are high in sugar and fat is a perfect example to illustrate this. For the most part of our history, these foods were always in short supply. At some point,  a mutation caused someone to get a higher dopamine release in his brain after eating high-calorie foods than others, causing greater feelings of pleasure. This, in turn, made him or her eat more of these foods when they were available, giving them a higher chance of surviving than those who just ate a little and were thus more susceptible to starvation when they weren't available. Now that these foods are readily available to us, however, this trait has become a burden rather than an advantage, illustrated by the grotesque Mario Kart-like scenes of personal mobility scooters and their gnarling drivers at Wall Mart, to name an example.

Hunting is another clarifying example. Being on the hunt for something, whether it be Bambi or new boots, causes the brain to release dopamine, making you feel excited. Once we caught Bambi, after a few sniffles and a lot of blood and gore, eating its meat again makes dopamine levels rise, rewarding us for our behavior. Now that we hunt for new shoes in stead of life-supporting calories, this mechanism has come to haunt us. Studies showed that in the case of new footwear (and shopping in general) dopamine levels plummet after the purchase, leaving us wanting another 'fix'. The process is the same with drugs in essence, except that the source of dopamine flooding is now a substance instead of a behavior.

Back to the gray matter, our brain. With the amount of input it gets to process every day and the bandwidth that is available, it has no choice but to devise systems to simplify information by categorization. Stereotypes, generalizations and group thinking are a direct result of this process.


For more info I recommend these reads:

Catching up

But why am I delving so deep into this already more than thoroughly explored subject matter? Because knowing the evolutionary compromises that were made in creating the beastly bipeds that now roam our once virgin planet, is a key to understanding yourself and to overcome some of the basic flaws we experience in reasoning and in observing the world, ourselves and others. Here are some examples taken from psychology, which I think are particularly important or illustrative.

Attribution Errors

There are many types of attribution errors, all of which at some time or another improved a beings' chances of survival or reproduction. If they didn't they wouldn't have survived the natural selection process, after all. They concern errors in attributing traits and making conclusions about the behavior of the self and other people.

 

attribution social psychology
Social processes affecting the individual

The fundamental attribution error, for instance, refers to the tendency to attribute causes to internal factors such as personality characteristics and ignore or minimize external variables when judging others' behavior. Hypocrites as most of us are, when it comes to explaining our own behavior we tend to do the opposite; when we ourselves err, we are more likely to blame external forces than our personal characteristics. In psychology, this tendency is known as the actor-observer bias. It, together with the fundamental attribution error, is a very common mistake, particularly among individualistic cultures.

Analogously, there is the group attribution error. It refers to the tendency to take the characteristics of an individual group member as reflective of the group as a whole (especially when that behavior stands out) and/or that a group's decision reflects the preferences of individual group members, even when information suggests otherwise.

Earlier I mentioned Stereotyping, a related phenomenon. It has its use, as categorizing bits of information is the way our brain is able to keep up with all it needs to process. Not doing this would likely result in a total meltdown. Nevertheless this also but all too often results in oversimplified views, unjust racism and depraved ignorance in general. When we become too lazy to check on our own thoughts and fail to look at them from a 3rd person perspective, we become caged as it were, in our own subjective ignorance.

Did you ever stop to think that, equivalently, your expectations directly affect your perception, which has been proven time and again? We tend to ignore information contradicting our current point of view while exaggerating evidence that supports it.

The list of examples goes on seemingly forever, and it is definitely worth it to dive into this subject matter more deeply, but the conclusion we can draw from all these examples is quite clear already: Always question yourself and your thought process, by becoming fully aware of the logical steps you are taking in drawing your conclusions. Always be the devil's advocate, always try to take the opposite view as well, always distrust your own take on things. Failing to do this is at the root of many of societies' problems while boosting people's' susceptibility to manipulation.

But lest we forget, at some point they helped us survive! It is up to us as individuals now to overcome them by being mindful of our own thoughts. Take evolution into our own hands. Wake up, and don't you dare touch that snooze button again! Just like in evolution, we are right in the middle of an age of getting rid of old antiquated systems in general, in all aspects of life; ways of thinking, societal structures, technical developments, energy sources, basically everything is up for an overhaul. That makes the current time both the most exciting time to be live in almost all of human history, but also one of the hardest to keep up with. I say enjoy the mad ride down the maggot hole. Wave good bye to all the maggotry of the past.

Time to get off my rhetorics chair now before I get preachy! After all, we do not want to oversimplify things, as it were. Naturally...

And that's how the bud crumbles, for now...Enjoy thinking about thinking, until the next time we meet.

Sources
Aron Bijl, main author at the PRoud Highway
Aron Bijl, MSc.

Main author & founder of the Proud Highway

Aron was born in 1983 in Alkmaar, The Netherlands. After attending high school in Alkmaar at the Murmellius Gymnasium he went on to study Experimental Psychology at the University of Amsterdam (U.v.A.), earning his Masters degree with merit in 2012, after attending the U.v.A. for 10 years. Why hurry when you are enjoying yourself, right?

Aron Bijl, main author at the Proud Highway,at Huntington Beach


Writing his thesis on a parapsychological subject, he chose to devote (the psychological science part of) his career to a controversial field, studying subjects like life after death, telepathy, extra sensory perception and telekinesis. Read more...

Human Time-travel now proven to be possible – at least mathematically

Time effects have been known for a while

Non-linear time effects have been known and observed by scientists for a while now. I actually graduated and wrote my Masters' thesis on a subject akin to this, finding evidence that practice can 'travel back in time' and influence a performance in the past. It was later published in the Journal of Scientific Exploration.

New Study proves human time travel is possible

Recently, however, two scientists from the University of British Columbia and the University of Maryland presented mathematic proof, in a study published in the Journal of Classical and Quantum Gravity two months ago, that actual time travel by human beings is, at least, mathematically possible.

Using Einstein's Theory of General Relativity they constructed a hypothetical time-machine. They gave it a catchy name to: Traversable Acausal Retrograde Domain in Space-time (TARDIS), which Doctor Who fans will like.

TARDIS

But before we can finally utter the words "Roads? Where we're going we don't need roads..." we'll have to be patient though. According to Ben Tippet, one of the scientists behing the study it not a real world possibility, yet:

“While is it mathematically feasible, it is not yet possible to build a space-time machine because we need materials — which we call exotic matter — to bend space-time in these impossible ways, but they have yet to be discovered,...”.

Sources:
You might also like to check out these articles:
Time travel now proven to be possible | The Proud Highway

Human Time-travel now proven to be possible – at least mathematically

  Human Time-travel now proven to be possible – at least mathematically Time effects have been known for a while Non-linear time effects have been known and observed by scientists for a while now. I actually graduated and wrote my Masters’ thesis on a subject akin to this, finding evidence that practice can ‘travel back in time’ and influence a performance in the past. It was later published in the Journal of Scientific Exploration. New Study …

Google A.I. powers are reaching new, even eerier levels

  Google A.I. powers are reaching new, even eerier levels In a new ploy by Google to figure us out completely, they recently announced a new project mapping YouTube views and Google searches directly to retail store visits.  If we are to believe them, they will be able to exactly predict when and where we will visit a store and what we will purchase. Judging by the way they managed to make adds tailored and …

‘They Took our Jobs!!’. How Artificial Intelligence will overthrow the monetary system!

Just when you thought things couldn't possibly get any weirder, the cosmic joker recently played his ultimate trump-card, and quite literally this time. A depraved egomaniac at the wheel. And right when we are facing some of our biggest challenges as a species, like trying to survive the rise of A.I....

I encountered this short video by xvivo.net a while back. Explaining how a certain white blood cell (leukocyte) process works, it shows the intricacies of the workings of a single cell.I found it truly awe inspiring and a bit of a mindfuck even, to see the galaxy that resides within each living cell. Enjoy!

Recent Posts:
Aron at TPH headquarters

Meanwhile at HQ…

Just your regular saturday evening at the Proud Highway HQ… About the author: Aron Bijl, MSc. Main author & founder of the Proud Highway aron@theproudhighway.com Aron was born in 1983 in Alkmaar, The Netherlands. After attending high school in Alkmaar at the Murmellius Gymnasium he went on to study Experimental Psychology at the University of Amsterdam (U.v.A.), earning his Masters degree with merit in 2012, after attending the U.v.A. for 10 years. Why hurry when you are enjoying yourself, right? Writing his thesis on a parapsychological subject, he chose to devote (the psychological science part of) his career to a …

Perfect Imperfection - How evolution is all about compromise

How Evolution is all about compromising. And why it is Imperative you know this.

How Evolution is all about compromising. And why it is Imperative you know this. “Folks, it’s time to evolve. That’s why we’re troubled. You know why our institutions are failing us, the church, the state, everything’s failing? It’s because, um – they’re no longer relevant. We’re supposed to keep evolving. Evolution did not end with us growing opposable thumbs. You do know that, right?” ― Bill Hicks Pivot time There are moments in life when you have to stop and think about the status quo, the universe around you, your journey through it that led to your current whereabouts… Whether …

on finding purpose: timeless letyter by the young hunter thompson

On finding your purpose: Timeless advice from a young Hunter Thompson.

  On finding your purpose: Timeless advice from a young Hunter Thompson. As you might know Hunter S. Thompson serves as an inspiration to us here at the Highway. The term ‘the Proud Highway’ came from this awesome bastard of a man, after all! In this beautifully written letter from 1958, the then 22 year old Thompson proves at a young age – and before his rise to fame – to be one of the greatest writers of the 20th century. Answering a request, he gives eloquent advice on finding one’s purpose in life to his friend Hume Logan. His …

Aron Bijl

-Avarus, nisi cum poritur, nil recte facit-
(A miser, until he dies, does nothing right)

Latin Proverb

Leadership 101
You have to learn the rules of the game. And then you have to play better than anyone else. Buy the ticket and go for it... But For God's sake learn to drive first. Or worse, realize you're even in a car, to begin with... Right?

When Trump took on running for president, he did so because people told him he would never succeed. It's a gut reaction some people feel that can either help or hurt them a lot. As for me personally, it has helped me a lot throughout my life and has fueled my drive towards attaining a certain goal on many occasions. And who knows which ones would have never succeeded without it? But when it starts causing you to do things or accept challenges that you are totally unprepared for, it might be time to scratch yourself behind the head. But this will turn out hard since by now you will be discovering your head was up your ass this whole time.

In other words, back to the White House, where the vaudeville theater continues. Trumps' "Kremlinks" are catching up with him. And it's happening a lot faster than most of us thought it would.

Taking on leadership without Integrity is like trying to go 5 days without sleep without some decent amphetamine. Nye impossible, for all intents and purposes. This speaks for itself in a democratic system that includes any form of ethics and morale. Of course, every politician carries a hint of slimy maggot somewhere, but that can be tolerated. When morality becomes an outside demand rather than a principal, sound leadership becomes a non-sequitur. Nixon showed us what that path leads to. We're still stuck with that beastly war on drugs, lest we forget! And a war it is in every sense, including the tragic casualties. I wouldn't be surprised if Bush for example  has even bigger skeletons in his closet that are still waiting to reveal itself. But with this Carrot-Top wannabe hog in place, we have reached a new level of depravity not before seen in the oval office. During Caligula? Maybe.

Anamnesis

Such a distinct lack of empathy is a clear sign you are dealing with a sociopath. But one doesn't need a degree in psychology to figure this one out. The bastard is actually doing a lot of the crazy shit he dreamed up during the run for the presidency. If this continues, the war on drugs

Donald Trump Trump Alzheimers Warning Dementia
The signs are definitely there....

was a mere prelude to the closed mindedness that festers in many of the people in power. We are damn lucky he dug his own grave long before ever becoming president, or we would be seriously screwed.

Trump Nope
A demented president. Sounds like a punk-band...

Now don't get me wrong, we are definitely not out of the woods yet. Like some fiendish madman, he is currently steering us straight toward World War III.He practically forced that giant mutant baby that runs Korea to make a very detrimental move. Trump is the belligerent drunk bar guest who tries to pick a fight with everyone just for the sake of it. Nobody remembers who invited him of course, but everybody's looking at each other for it. And nobody has got the guts to kick him out. If he succeeds in getting someone to fight with him, it'll leave a lot more than a black eye on all of us. Scorched earth...

Donald Trumpski

Back here in the Netherlands, public TV did an investigation into his former ties to the Russian mafia. They stumbled upon some interesting stuff. All that is left now is for someone to throw it in the fan. Watch the video and see for yourself:

UPDATE:
Rumors are now spreading that the President might be suffering from Alzheimer's. Tragic as this would be for him on a personal level (you wouldn't wish this disease upon anyone, even your worst enemy), I can't help but snicker and think "told you so.." I've called Trump everything south of the moral
border, but I must admit that even I did not mean sick bastard this literally. And if it is true, we should be
even more ashamed of ourselves than we thought for ever letting him get to where he is today. Still, though, it is almost a fitting end to this tragic tale, which looked and felt like a surreal play from the beginning. The truth is, as always, stranger than fiction.

Here is what they said about it on MSNBC's Morning Joe:






Google A.I. powers are reaching new, even eerier levels

In a new ploy by Google to figure us out completely, they recently announced a new project mapping YouTube views and Google searches directly to retail store visits.  If we are to believe them, they will be able to exactly predict when and where we will visit a store and what we will purchase. Judging by the way they managed to make adds tailored and at the same time very creepy in the last decade, I would not be surprised at all if that is exactly what they'll do.

The technology has been around since 2014 measuring store visits and correlating this to your doings on the web, but this is the first time they are adding video to this.

 

 

“The digital and physical worlds are merging. We have shown that online advertising is driving consumers into stores. We have measured over five billion store visits globally in 17 countries that were the result of ad clicks. So we measure from a click on a search ad or a display ad all the way through a store visit.”

according to Jerry Dischler at Google Adword.

“On top of that, we also have five million human raters where if we are uncertain whether people are in a store location we ask them and we feed that into a deep neural network and use that in order to get 99% precision knowing someone is in a store.”

Google knows most people better than they know themselves. Pretty sure they got me figured out too, judging by the songs google picks when I'm feeling lucky on Google Play Music.. 😉

Sources

Simon Canning “Google to predict what consumers will buy and where by using cross-device measurement” Mumbrella Asia May 24, 2017. Web. http://www.mumbrella.asia/2017/05/newsgoogle-predict-consumers-will-buy-using-cross-device-measurement/

by

Being a scientist at heart (I have a degree in experimental psychology) I like to get a little "science-ey" now and then. It's not for everyone, the material can get kind of dry but for those who are into it, here is my first ever scientific publication. It was first published in the Journal of Scientific Exploration back in 2014. I found support for a theory that states that information can not only travel forwards in time but backward too.

Imagine studying for an exam after you have done the exam already. Wouldn't do much good right? Wrong! Evidence shows that practice after a test can still influence said test. It's enough to give you the fear if you try to think about it too much. Here is the article:

Introduction

Retroactive Influences

Recently, there have been multiple studies on retroactive influences on cognition, where future events seem to have an anomalous, retroactive influence on responses made in the present (Bem 2011). One example of this that has received quite some attention in the last decades is presentiment:

Multiple studies have shown that certain measures of arousal (galvanic skin response, heart rate, etc.) can show an increase a short time before the actual onset of a random arousing stimulus (e.g., Bierman & Radin 1997, Bierman & Scholte 2002, Mossbridge, Tressoldi, & Utts 2012). Such results suggest that information concerning a stimulus can actually go back in time (from milliseconds to seconds), although it might be more precise to say that the present apparently is dependent on the past and, to a much smaller degree, on unknown future conditions. Another example of this same phenomenon is retroactive priming, where primes shown after the target stimulus have an effect on the response latency for that stimulus (e.g., de Boer & Bierman 2006, Bem 2011).

A further example of this phenomenon that shows said anomalous retroactive effects even earlier (multiple minutes back in time) is retroactive practice or learning (e.g., Franklin & Schooler 2011a, 2011b). Simply put, it is conventional practice turned around. Studying for an exam is a good example: Normally, studying before an exam influences one’s performance during that subsequent exam. According to the theory of retroactive influences, it would theoretically be possible to influence one’s performance on an exam by studying for it after it has taken place.

Some of the above-mentioned studies will now be described in more detail. Bem (2011) did a study, consisting of nine separate experiments, on precognition and premonition, with two examples of a more general phenomenon: the retroactive, anomalous influence of a future event on a person’s current responses. All but one of these experiments yielded significant results, supporting these retroactive effects. One of these experiments, for example, was a reversed priming experiment: Participants judged pictures as being either pleasant or unpleasant. After being shown a picture, instead of before as in a regular priming experiment, a congruent or incongruent word would quickly be shown. Participants responded significantly faster incongruent trials than in incongruent trials.

It should be mentioned that this study has attracted strong criticism. A good example of such criticism is from Wagenmakers, Wetzels, Borsboom, and van der Maas (2011), who call upon Bayesian statistics in an attempt to weaken Bem’s results. The points they and others have raised are either incorrect or applicable to statistics in experimental psychology in general. An issue that has hardly been raised in the discussion of Bem’s and similar anomalous results is whether the use of Questionable Research Practices can account for these results. A number of meta-analytic results in the field of experimental parapsychology show consistent and significant effects (often larger than 6-sigma). Small effects induced by questionable research practices in individual studies, however, can of course build up to large meta-analytic effects. Recent simulations of so-called Ganzfeld telepathy experiments show that about 40% of the reported meta-analytic effect size can be accounted for by these practices (Bierman & Bijl 2014, in preparation).

In studies such as those mentioned above, where anomalous retroactive influences are tested, it is essential that the future condition that is supposed to “influence the past” is chosen randomly. If that condition is not met, then normal inferential processes about the future might have caused the current performance in the present. In studies such as those mentioned above (and in the current experiment as well), the selection of the future condition is generally based upon the outcome of an electronic or software-based random number generator. Franklin & Schooler (2011a, 2011b), however, conducted multiple experiments (yet to be published) where they used the above-mentioned retroactive practice effect to predict real world events (in this case, the spin of a roulette wheel). To do this, they used a setup similar to the one used in the current experiment: During two subsequent Go/NoGo tasks, subjects were asked to respond to a stimulus that appeared on the screen. During the first Go/NoGo task, subjects pressed a button for two shapes (the Go-shapes) randomly selected from four. For the two other (NoGo) shapes, subjects had to withhold a response. During the second Go/ NoGo task, subjects only had to react to one of these two Go-shapes from the first task. This shape is also referred to as the target-shape. The choice of target-shape was determined by the spin of a roulette wheel.

If their response during the first task was quicker for Go-shape A than for Go-shape B, the experimenters assumed that shape A would be the one chosen by the random decision of the roulette wheel (to be used again as the target-shape during the second Go/NoGo task). In this manner, they were able to infer the future outcome of the roulette wheel just by looking at the results during the first Go/NoGo task. Their results were a bit less straightforward than a superior performance during the first task for the shape exercised during the second task. During the final experiment, they achieved a success rate of 57% (N = 111, p = 0.062) in predicting these roulette outcomes.

The Consciousness Induced Restoration of Time Symmetry model (CIRTS) (Bierman 2010) is based upon the fact that time-symmetry is intrinsic in almost all formalisms of theoretical physics. Apparently, this symmetry has been broken for most physical systems. It is assumed that under specific information processing conditions, this symmetry is partly restored. In that case, one would expect correlations that appear to be retrocausal. The particular context that restores symmetry is that information is processed by a multi-particle system like our brains. This also introduces the single parameter that can account for individual differences, namely the coherence of the brain. It is argued that intuitive participants have a more global and spontaneous type of information-processing than more rational (serial-thinking) participants, and therefore CIRTS would predict a larger retrocausal effect for “intuitive” participants.

The current study was designed to replicate the anomalous retroactive practice effects reported by Franklin & Schooler (2011a, 2011b).1

Research Question

We investigated whether future practice can affect performance in the present. We compared this effect for intuitive and rational thinkers, expecting the effect to be larger for the former.

Hypotheses

We used the same design as the Go/NoGo experiment by Franklin and Schooler described above, with the exception that we didn’t use a roulette wheel as a randomizing device, but rather the built-in random function of “Visual Basic.” This study must therefore be treated as a confirmatory experiment.

  • Hypothesis I: The second Go/NoGo task will have a training effect on performance in terms of response times during the first Go/NoGo task. More specifically, assuming the two Go-shapes in the first task are “A” and “B,” and assuming that the Go-shape in the second task is “A” (aka the target-shape), we predict that subjects will respond faster to A than to B during the first task (and vice-versa for subjects who have to respond to target-shape B in the second task).
  • Hypothesis II: Subjects with an intuitive thinking style will show a larger retrocausal effect than subjects with a rational thinking style.

Method

Subjects

In total, 69 people (35 female; 34 male) with a mean age of 20.8 (ranging from 18 to 64, with a standard deviation of 8.3) completed the experiment. The number of participants chosen was based on a power analysis based on the effect size found in Franklin and Schooler’s (2011a, 2011b) experiments. This power analysis resulted in 64 participants. We ended up testing five more for reasons that had to do with the way subjects were selected in a school environment (so no optional stopping was used). The subject pool consisted of some first-year psychology students participating for credit as a mandatory part of the curriculum at the University of Amsterdam, and, for the most part, students from a local high school in Alkmaar who were in their last year before entering university. This was because of the low availability of participants at the university.

Procedure and Materials

The study was approved under number 2011-BC-2019 by the Faculty Ethics Review Board. After arriving at the test room, participants were asked to read an informational brochure informing them about the nature of the experiment. Before taking part in the experiment, each participant provided written consent.

Figure 1.  The four shapes used in the Go/NoGo tasks.

They were then introduced to the tasks and the shapes that were used during the two Go/NoGo tasks (see the shapes in Figure 1), and informed that they were free to quit the experiment at any time. The experiment consisted of three phases.

Figure 2.  Flow chart of the experiment’s several phases.

In the first phase, preceding the two Go/NoGo tasks (phase 2 and phase 3), subjects performed an initial baseline reaction time task (see Figure 2). They were asked to respond to an “X” appearing center-screen on a computer at random intervals, ranging from 1,000 to 3,000 milliseconds during 20 trials, by pressing the “Enter” button on the keyboard. The mean baseline reaction time measured in this way for each participant was later used to “normalize” the experimental response times, thereby reducing the inherent inter-subject variability due purely to differences in physiologically driven motor responses.

After this, subjects were given the first Go/NoGo task (phase 2), with the instruction to simply do the best they could. The task was made up as follows (see Figure 2): Participants were, in each of the 64 trials, randomly shown one of four predetermined shapes on a computer screen at random inter-stimulus intervals uniformly distributed from 1,500 to 3,500 milliseconds. The screen size of the shape was 3.5 cm × 3.5 cm on a 30.8 cm × 23-cm computer screen with a resolution of 1024 × 768 pixels.

Participants were asked to press the Enter button if a Go shape appeared on the screen. In the first Go/NoGo task, there were two Go shapes. For instance, the participants were asked to respond when either shape A or shape B appeared on the screen, and to not respond to the two others (shapes C and D). Note that for each participant, the assignment of which shapes to respond to was random. This was important in order to avoid effects caused by intrinsic recognition of the shapes. After the first Go/NoGo task, they entered a second Go/NoGo task. In this task, participants had to respond to only one of the four shapes. The shape they had to respond to during the second Go/NoGo task was randomly chosen from the two they had to respond to during the first (i.e. in this example shape A or B).

The shape subjects had to respond to during both Go/NoGo tasks will be referred to as the “target-shape” for that specific participant. The shape to which the participants only had to respond to during the first Go/NoGo task, and therefore didn’t get further training on in the second Go/NoGo

task, will be referred to as the “control-shape.”

The program used during the experiment was written with Visual Basic programming language using Real Studio 2011, version 4.3. It can be downloaded from: https://www.dropbox.com/s/akv3k5p2ihwidlv/GNG.rb

Finally, using the HIP-questionnaire (Human Information Processing) (Taggart & Valenzi 1990), subjects’ tendency toward rational or intuitive reasoning was assessed. This was done after the actual Go/NoGo tasks to avoid the effect of this questionnaire (and the resulting reflection on one’s thinking style) on subjects’ natural style and their resulting performance. Subjects were given statements concerning their thinking style. They rated how much the statement applies to them, from “always” to “never” on a 6-point Likert-scale. An example of such a statement is, “When solving problems I prefer to use proven methods over trusting my first intuitive impressions.”

Dependent Variables

The dependent variables that we used in the analyses have been operationalized as follows.

“Normalized” Response Times

From the data of the initial simple reaction time task, mean “baseline” reaction times were calculated for each subject. In addition, mean reaction times were calculated for each Go shape during the two Go/NoGo tasks per subject (two during the first task and one during the second task). We normalized these reaction times by dividing a participants’ reaction time on a shape by their mean baseline reaction time measurement. In order to remove individual differences caused purely by differences in physiological motor responses, we divided the raw response times by the mean response time of each individual on the simple motor reaction (baseline) task. This, of course, is different from normalization by converting individual scores to z-scores. In the latter procedure, individual differences pertaining to the increased complexity of the Go/NoGo task compared with a simple task also are removed. We wanted to keep that particular aspect of the individual differences in our equations. Error rates were also calculated per task per subject. Averaged normalized response times were calculated using only the correct responses.

Intuition Score and Categorization

For the HIP scores, the three scores related to a rational thinking style were added per subject. The same was done for the three scores related to an intuitive style, resulting in two scores for each subject: one signifying the amount of rational thinking (R = rational score), and one the amount of intuitive thinking (I = intuitive score). The intuitive scores were subsequently divided by the rational scores, resulting in a thinking style-score “IR,” which varied between 1.5 and 0.7; the first indicating a very intuitive thinking style, the latter a very rational one. Subjects were categorized as “intuitive” if their IR was larger than the median, and as “rational” if their IR was smaller.

Results Subjects and Data

The data of one subject had to be disregarded because the number of errors was so large that it was clear the subject hadn’t understood the instructions. For one subject, there was data loss caused by computer failure. The analyses, therefore, were performed for the remaining 67 subjects.

Hypothesis I: Retrocausal Training Effect

To test our prediction that the second Go/NoGo task (phase 3) would have

TABLE 1

Baseline Reaction Times in msec and Normalized Reaction Times on Target and Control Shapes for Rational and Intuitive Thinkers for the First Go/NoGo Task

Baseline (msec)Target-shapeControl-shapeDiff (t)
GroupMean RTNStd. Dev.

Mean

Normalized

NStd. Dev.

Mean

Normalized

NStd. Dev. 
Intuitive thinkers354.463531.981.73350.231.80350.253.4 **
Rational thinkers353.353229.251.79320.21.79320.220.3 (ns)
Totals353.96730.481.75670.211.795670.232.59*
* = p < 0.02, ** = p < 0.01.        
             

a training effect on performance during the first Go/NoGo task (phase 2), the reaction times to both Go-shapes during the first Go/NoGo task (the target-shape and control-shape) were compared with each other to inspect whether the future Go/NoGo task in phase 3 had a retroactive practice effect on the first task. The normalized reaction times were always larger than one because the normalization factor was obtained in a simpler reaction time task in phase 1 of the experiment. A paired samples t-test was performed comparing the normalized reaction times of the control-shape and targetshape during the first Go/NoGo task. Reaction times to the target-shape proved significantly lower than reaction times to the control-shape (t = 2.59, df = 66, p = .012 one-tailed, Cohen’s effect size d = 0.22), suggesting a retroactive practice effect of the second Go/NoGo task on the first (see Table 1). Data are available at: https://www.dropbox.com/s/j44lvj0c561o5in/ Main%20datafi le.sav (SPSS datafi le).

Hypothesis II: Individual Diff erences

To test whether this effect was more pronounced for subjects with an intuitive thinking style, we performed a one-way ANOVA with thinking style as a between-subject factor, comparing the difference in normalized reaction times between the target-shape and control-shape during the first Go/NoGo task for rational and intuitive thinkers. A main effect for thinking style was found (F(1, 66 = 4,477, p = 0.038). We also repeated the paired samples t-tests comparing normalized response time for target-shape and control-shape for intuitive and rational thinkers separately. Only the intuitive group showed a significant difference in the expected direction (t = 3.41, df = 34, p = 0.001, one-tailed, Cohen’s effect size d = 0.40). When the same paired samples t-tests were performed using the raw reaction times (instead of the “normalized” responses), the same pattern emerged. Only the intuitive group showed a significant difference (t = 3.43, df = 34, p = 0.002).

Exploration of the HIP

The Human Information Processing questionnaire has 30 items, resulting in 6 subscales, called rat1, rat2, rat3, int1, int2, and int3. The authors of the HIP labeled these subscales “Logic,” “Planning,” and “Rituals” for rat1, rat2, and rat3, respectively, and “Insight,” “Vision,” and “Sensing” for int1, int2, and int3, respectively.

The formal test of our hypothesis (that intuitive subjects would show the anomalous training effect more than rational subjects) was tested using the compound measure IR = (int1 + int2 + int3)/(rat1 + rat2 + rat3). The IR scores were normally distributed (Kolmogorov-Smirnov: 0.073, df = 67, p = 0.20). The correlation between psi effect and global intuition score (IR) was a marginal R = 0.20 (p < 0.052, one-tailed).

In this section, we explore which of the subscales that go into IR contributed most to this effect. First, we performed regular and partial correlational analyses using each subscale separately while controlling for all others to predict the performance of the subjects. The correlation data are given in Table 2.

The rat3 component “Rituals” correlates most strongly with the psi score (R = −0.36, N = 67, p = 0.002). In spite of the label “rituals,” the subjects scoring high on this attribute do not engage in spiritual traditions, but rather stick to rules and procedures. It could be argued that “rituals” here implies a lack of spontaneity and creativity. We prefer to label this scale “rigidity.”

It can further be observed from Table 2 that some of the subscales show strong correlations among themselves. Therefore, we also calculated partial correlations where we controlled for all the remaining subscales. The partial correlation of psi score and “rigidity” happens to be near-identical to the regular correlation (Rpartial (rat2, psi) = −0.37, N = 67. P = 0.003). The other rational subscores also had a negative partial correlation with the psi scores, though not as strong as rat3. (R (rat1, psi) = −0.23; R (rat2, psi) = −0.16)

TABLE 2

Regular and Partial Correlations between Psi Performance and Subscales of the HIP,

Controlled for All Other Subscales, and Regular Correlations between the Subscales Themselves

                           Psi score1                     Rat1            Rat2          Rat3         Int1        Int2Int3
 RegularPartial                              Regular        Regular     RegularRegular   RegularRegular
Rat1: Logic−0.17−0.23*1    
Rat2: Planning− 0.02−0.16+ 0.37**1   
Rat3: Rituals  − 0.36** − 0.37 **+ 0.05− 0.33 *1  
Int1: Insight− 0.01−0.02- 0.33**− 0.38 **− 0.111 
Int2: Vision− 0.13−0.20− 0.42**− 0.46**+ 0.13+ 0.47**        1 
Int3: Sensing+ 0.12+0.15+ 0.1+ 0.25+ 0.06− 0.38**   − 0.01−1
1 Psi score = Normalized reaction time control-shape − normalized reaction time target-shape. * p < 0.05, ** p < 0.01. 

From the partial correlations of the int-scales with psi performance, only int2 (vision) was marginally significant (Rpartial (int2, psi) = −0.2, p < 0.06), but surprisingly this was in the negative direction. The int2 factor is labeled “vision,” and most items seem to measure some aspect of creativity. As we mentioned before, the rat3-subscale, which we re-labeled “rigidity,” can be interpreted as representing a lack of creativity. However, there is a minor positive correlation between rat3 and int2 (R (int2, rat3) = 0.13, n.s.). This is what we would expect for two subscales, both correlating in the same direction with psi performance. However, one subscale, rat3, measures “rigidity,” and the other, int2, measures “aspects of creativity.” One would expect these to have a negative correlation. It is unclear why both subscales that appear to measure opposing personality aspects both correlate in the same direction with psi performance. It should be remarked that neither of the int scales have a significant contribution to psi performance, so we shouldn’t take the apparent paradox too seriously. Basically, the only aspect that really counts is “‘lack of rigidity,” rather than the amount of intuitive processing, as it is measured by the int-subscales. This cautious conclusion fits with findings in the literature that psi performance correlates positively with the “openness factor” in the Neo Personality Inventory (Zingrone, Alvarado, & Dalton 1999). If we forget about the int subscales and use only

TABLE 3

Frequencies of the Different Shapes with Mean Normalized Response Times

Go

Shape

Mean

Response

Time as Target

Mean

Response Time as Control

Mean

Response Time

Frequency as TargetFrequency as Control
11,7781,7861,7831622
21,7721,8831,8341519
31,7561,7121,7361915
41,7651,8141,7851812
    Total           1,767               1,802              1,785                   68                      68

the ratio scales, the correlation of psi performance with Rat = rat1 + rat2 + rat3 is −0. 32, (N = 67, p = 0.004 one-tailed).

Alternative Explanations for the “Retrocausal” Effect

As stated in the Introduction, in experiments of this kind, where a future condition is claimed to have a “retrocausal” influence on present behavior, it is mandatory to ensure these future conditions are properly randomized with replacement so that it is impossible to infer the future condition. For instance, in so-called presentiment research, the claim is that the actual physiological behavior of a participant is dependent on a future (randomly selected neutral or emotional) stimulus. However, in the current experiment, the relevant future condition (what shape will be the target-shape) is only determined once. Even if the randomization is weak, the participant isn’t able to infer anything that could be used in the next trial.

However, the alternative explanation of conscious or non-conscious learning of the randomization is replaced in the current experiment by another potential explanation. Actually, this explanation occurs because the choice of target-shape from the possible four shapes is random and not counterbalanced. This may result in an over- or under-representation of a specific target-shape in the whole experiment. If and only if the participants have biases in response times for specific target-shapes (for instance, if it is intrinsically easier to respond to a specific shape, and that shape is overrepresented as a target), we can expect that overall, participants will show faster response times for the target-shapes. In Table 3, the mean response times for the different shapes are given in the relevant column.

To check whether the four shapes used in the Go/NoGo tasks were actually equally difficult to remember and respond to, a one-way ANOVA comparing the different shapes was performed with these normalized reaction times. There were no significant differences in response times for each of the four shapes (when the shape was the target, F3,66 = 0.28, p = 0.99), nor when the shapes were the controls (F3,66 = 1.512, p = 0.22).

Of greater importance for this potential alternative explanation is checking if the frequency distribution for the Go shapes significantly deviates from a random distribution. This does not appear to be the case: chi-square = 0.588, df = 3, n.s. for the target-shape frequency distribution, and chi-2 = 3.41, df = 3, n.s. for the distribution of control-shapes.

To assess whether the actual non-significant deviations from the perfect distribution could have produced an artificial differential response time effect between target-shapes and control-shapes, we ran a simulated t-test for each subject using the shapes that were actually used in his/her experiment, while using the subject’s average response times for those shapes.

This simulation resulted in a small artifi cial effect; the mean normalized target-shape response time was 1.782 and the mean normalized controlshape response time was 1.785 (t = 1.07, df = 66, p = 0.22, one-tailed). The difference was only 0.005, while in the actual experiment, the differential effect was about 10 times larger. These results show that the artificial effect, due to deviations in the frequency distribution of shapes and their respective mean normalized response times, is able to explain only 0.15% of the total 2% effect. The fact that the difference in reaction times between the control- and target-shapes was only found for intuitive thinkers further renders this alternative explanation, based upon different difficulties and different frequencies, unlikely.

Discussion

The prediction that the second Go/NoGo task (phase 3 of the experiment) would have a training effect on performance during the first Go/NoGo task (phase 2), and that this effect would be more pronounced for subjects with an intuitive thinking style, was supported by the results. During the first Go/NoGo task, intuitive subjects reacted significantly faster to the targetshape than to the control-shape. The only difference between the target- and control-shape was that the target-shape would be trained in the future (second Go/NoGo task), while the control-shape wouldn’t. Rational subjects did not show this difference at all. This suggests that for subjects with an intuitive thinking style, the second Go/NoGo task had a retroactive practice effect on their performance during the first Go/NoGo task. When this difference was compared for the entire subject pool, it was still significant, with an effect size d of 0.25, which is comparable to what Franklin & Schooler (2011a, 2011b) found in their experiments. Potential alternative (normal) explanations for this anomalous finding were excluded. However, given the impact that has been reported of Questionable Research Practices on psychological research findings, we will discuss this issue separately. The potential role of Questionable Research Practices has been simulated for the meta-analytic database of Ganzfeld-telepathy experiments, and from those simulations a conclusion was reached that these practices, if they indeed are used, might be able to account for at least a fraction of the anomalous results (Bierman & Bijl, in preparation).

Questionable Research Practices and Pre-Registration

The current experiment was described in detail before starting the experiment. This proposal was submitted in part to the ethics committee to obtain permission and, in full, to an independent staff member who had the obligation to check if the final product (report and presentation) corresponded with the plan. This can be seen as equivalent to a formal preregistration. Practically, it is intended to prevent post hoc selections without explicitly mentioning that such is an exploration. For instance, in the current experiment, we did not plan to do an analysis on the HIP-subscores, and this was reported in the section “explorations.”

We asked an independent researcher, who is responsible for checking pre-registrations at the KPU-registry (http://www.koestler-parapsychology. psy.ed.ac.uk/TrialRegistry.html), to compare our research plan with the current intended publication as if it were a pre-registration, assuming we did adhere to the original plan. He pointed out that the original research plan did not explicitly state that the main hypothesis (retroactive training) was a confirmatory hypothesis. That could have given us a post hoc option to declare the study as exploratory, which would have given us the freedom to try out several different analyses of the main hypothesis. More importantly, the normalization procedure of reaction times was not specified. It is obvious that such an omission leaves the door open for various data transformations and adjustments, such as outlier corrections. The compound variable that determines the processing style of the participants from the sub-scores of the HIP was also not specified. He concluded that there still were too many ambiguities that offered degrees of freedom that could have been exploited post hoc. Although we didn’t actually use this freedom, the current results should be taken in light of these shortcomings. The normalization procedure we eventually used is logical in terms of having scores that are around 1. We therefore concluded that pre-registration is a good practice only when followed up by an independent comparison of the pre-registration with the final publication. Pre-registration with a public, openly accessible registry is already standard practice in medical and pharmaceutical research. It should be mentioned that in the 1980s the European Journal of Parapsychology required researchers to pre-register their experiments and the acceptance of a publication was solely dependent on the quality of the pre-registration, and not on the results. On the other hand, some of the more prolific researchers in parapsychology, and perhaps psychology in general, were for some time opposed to preregistration, claiming it would prevent “discovery.” All preregistration does, however, is prevent post hoc exploration of data from being presented as planned analyses. As several authors on pre-registration stress, it is very important in this respect to make a clear distinction between exploratory and confirmatory research (KPU 2014, and forum discussions on OpenScienceFramework.com), and there is nothing against the exploration of data obtained in a pre-registered experiment.

Subscales of the HIP

Looking at the exploratory results of the analysis of the HIP-questionnaire subscales, psi performance would appear to correlate negatively with rational thinking. The expected positive correlation with intuitive thinking could not be confirmed. These exploratory results seem to suggest that a too-rigid method of information processing hampers the psi effect significantly, while an intuitive method has a much smaller positive effect. Further research is needed to unravel the relation between intuition and psi performance. These rather confusing results with regard to HIP subscales should be considered in light of more recent work on thinking styles. The REI (Rational–Experiential Inventory) (Pacini & Epstein 1999), for instance, which in some sense attempts to measure the same rational versus-intuitive processing styles differences, shows correlations with some of the Big Five factors. On one hand, the rational component correlates with “Openness.” “Openness” has been shown in other psi research to correlate with higher psi scores (Zingrone, Alvarado, & Dalton 1999). On the other hand, an experiential thinking style was correlated with the Big Five factor “Extraversion.” Extraversion has also been shown in psi research to correlate positively with psi performance (Eysenck 1967). With such complicated results, it appears that we must fundamentally rethink the relation between psi and personality. In light of the theoretical background of the current experiment, it would have been preferable to directly measure the brainprocesses that could be seen as an operationalization of “coherence” in the CIRTS model, rather than linking the yet ill-defined concept of “coherence” with an intuitive processing style, as measured by the HIP.

Conclusion

The results of the present experiment are consistent with other experimental data suggesting the presence of anomalous correlations between present behavior and future random conditions. Interestingly, there is a growing attention in fundamental physics to “retro-causality,” often expressed in the form that the present is basically a “handshake” between present and future conditions (where the contribution of future conditions in most contexts are negligible) (Aharonov, Cohen, Grossman, & Elitzur 2013). Although rather rudimentary efforts have been published to integrate these findings in a psychological and physical model, it is clear that more breakthroughs in both physics and psychology are needed before we can begin to truly test and comprehend the workings behind these anomalous findings.

Acknowledgements

We thank Jim Kennedy for comparing the original research plan with the final article in order to check for potential differences that could indicate Questionable Research Practices.

 

References

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