Argumentum ad lapidem – Appeal to the stone

Argumentum ad lapidem (Latin: “appeal to the stone”) is a logical fallacy that consists in dismissing a statement as absurd without giving proof of its absurdity.

Ad lapidem statements are fallacious because they fail to address the merits of the claim in dispute. The same applies to proof by assertion, where an unproved or disproved claim is asserted as true on no ground other than that of its truth having been asserted.

The name of this fallacy is derived from a famous incident in which Samuel Johnson claimed to disprove Bishop Berkeley‘s immaterialist philosophy (that there are no material objects, only minds and ideas in those minds) by kicking a large stone and asserting, “I refute him thus.”[3] This action, which is said to fail to prove the existence of the stone outside the ideas formed by perception, is said to fail to contradict Berkeley’s argument, and has been seen as merely dismissing it.

Example

Speaker A: Infectious diseases are caused by microbes.
Speaker B: What a ridiculous idea!
Speaker
A: How so?
Speaker
B: It’s obviously ridiculous.

Speaker B gives no evidence or reasoning, and when pressed, claims that Speaker A’s statement is inherently absurd, thus applying the fallacy.


Further References

 

 

Ignoratio elenchi – Missing the point

Ignoratio elenchi (also to known as irrelevant conclusion or missing the point) is the informal fallacy of presenting an argument that may or may not be logically valid and sound, but (whose conclusion) fails to address the issue in question (from Ancient Greek ἔλεγχος elenchos, meaning ‘an argument of disproof or refutation’). It falls into the broad class of relevance fallacies.

Irrelevant conclusion should not be confused with formal fallacy, an argument whose conclusion does not follow from its premises (cf. belief bias)

Ignoratio elenchi is one of the fallacies identified by Aristotle in his Organon. In a broader sense he asserted that all fallacies are a form of ignoratio elenchi. A related concept is that of the red herring, which is a deliberate attempt to divert a process of enquiry by changing the subject. Ignoratio elenchi is sometimes confused with straw man argument.

Ignoratio Elenchi, according to Aristotle, is a fallacy which arises from “ignorance of the nature of refutation”. In order to refute an assertion, Aristotle says we must prove its contradictory; the proof, consequently, of a proposition which stood in any other relation than that to the original, would be an ignoratio elenchi. Since Aristotle, the scope of the fallacy has been extended to include all cases of proving the wrong point… “I am required to prove a certain conclusion; I prove, not that, but one which is likely to be mistaken for it; in that lies the fallacy… For instance, instead of proving that ‘this person has committed an atrocious fraud’, you prove that ‘this fraud he is accused of is atrocious;’” … The nature of the fallacy, then, consists in substituting for a certain issue another which is more or less closely related to it, and arguing the substituted issue. The fallacy does not take into account whether the arguments do or do not really support the substituted issue, it only calls attention to the fact that they do not constitute a proof of the original one… It is a particularly prevalent and subtle fallacy and it assumes a great variety of forms. But whenever it occurs and whatever form it takes, it is brought about by an assumption that leads the person guilty of it to substitute for a definite subject of inquiry another which is in close relation with it.

— Arthur Ernest Davies, “Fallacies” in ‘A Text-Book of Logic’

Example 1: A and B are debating as to whether criticizing indirectly has any merit in general.

A: There is no point in people ranting on social media about politics; the president is not going to read it anyway.
B: But it is their social media. People can agree on making a petition or convey notice from many others that they will be signing one based on their concerns.
A: Well, I do not keep up with it anyway.

A attempts to support their position with an argument that politics ought not to be criticized on social media because the message is not directly being heard by the head of state; this would make them guilty of ignoratio elenchi, as people such as B may be criticizing politics because they have a strong message for their peers, or because they wish to bring attention to political matters, rather than ever intending that their views would be directly read by the president.

Example 2: A and B are debating about the law.

A: Does the law allow me to do that?
B: The law should allow you to do that because this and that.

B missed the point. The question was not if the law should allow, but if it does or not.

Dr Johnson’s unique “refutation” of Bishop Berkeley’s immaterialism, his claim that matter did not actually exist but only seemed to exist, has been described as ignoratio elenchi: during a conversation with Boswell, Johnson powerfully kicked a nearby stone and proclaimed of Berkeley’s theory, “I refute it thus!” (See also argumentum ad lapidem.)

Etymology
The phrase ignoratio elenchi is from Latin, meaning ‘an ignoring of a refutation’. Here elenchi is the genitive singular of the Latin noun elenchus, which is from Ancient Greek ἔλεγχος (elenchos), meaning ‘an argument of disproof or refutation’. The translation in English of the Latin expression has varied somewhat. Hamblin proposed “misconception of refutation” or “ignorance of refutation” as a literal translation, John Arthur Oesterle preferred “ignoring the issue”, and Irving Copi, Christopher Tindale and others used “irrelevant conclusion”.

Walton, D.. (1984). Ignoratio Elenchi: The Red Herring Fallacy. Informal Logic, 2(3)

Plain numerical DOI: 10.22329/il.v2i3.2823
DOI URL
directSciHub download

Carl Friedrich von Weizsäcker

Carl Friedrich Freiherr von Weizsäcker (28 June 1912 – 28 April 2007) was a German physicist and philosopher. He was the longest-living member of the team which performed nuclear research in Germany during the Second World War, under Werner Heisenberg‘s leadership. There is ongoing debate as to whether or not he and the other members of the team actively and willingly pursued the development of a nuclear bomb for Germany during this time.

A member of the prominent Weizsäcker family, he was son of the diplomat Ernst von Weizsäcker, elder brother of the former German President Richard von Weizsäcker, father of the physicist and environmental researcher Ernst Ulrich von Weizsäcker and father-in-law of the former General Secretary of the World Council of Churches, Konrad Raiser.

Weizsäcker made important theoretical discoveries regarding energy production in stars from nuclear fusion processes. He also did influential theoretical work on planetary formation in the early Solar System.

In his late career, he focused more on philosophical and ethical issues, and was awarded several international honors for his work in those areas.


Der bedrohte Friede. Politische Aufsätze 1945–1981, Hanser, München 1981, ISBN 3-446-13454-9.

www.zeit.de/1982/11/ueberleben-in-frieden

www.hoye.de/mystik/lieferung12.pdf

Analysis of the personality of Adolph Hitler

Adolf Hitler was a German politician, demagogue, and Pan-German revolutionary, who was the leader of the Nazi Party, Chancellor of Germany from 1933 to 1945 and Führer of Nazi Germany from 1934 to 1945.

Author: Henry A. Murray, M. D.
Print Source:Nuremberg, Germany: International Military Tribunal, 1943-10-00
Publication Info: Ithaca, New York: Cornell University Law Library
hitler

 

José Delgado, implants, and electromagnetic mind control: Stopping the furious Bull

José Manuel Rodríguez Delgado (August 8, 1915 – September 15, 2011) was a Spanish professor of physiology at Yale University, famed for his research on mind control through electrical stimulation of the brain.

medicine.yale.edu/psychiatry/newsandevents/delgado.aspx

 

Delgrado used permanent brain implants to control behaviour. Later he utilised non-inversive methods.

  • José Manuel Rodríguez Delgado (1969). Physical Control of the Mind: Toward a Psychocivilized Society. Harper and Row. ISBN 978-0-06-090208-7.
  • Delgado JM (1977–1978). “Instrumentation, working hypotheses, and clinical aspects of neurostimulation”. Applied Neurophysiology. 40 (2–4): 88–110. 
  • Delgado, Jose M.; et al. Intracerebral Radio Stimulation and recording in Completely Free Patients, Journal of Nervous and Mental Disease, Vol 147(4), 1968, 329-340.
  • Delgado, José M.R. (1964). Free Behavior and Brain Stimulation. International Review of Neurobiology. 6. pp. 349–449. doi:10.1016/S0074-7742(08)60773-4.
Abstract - Free behaviour and brain stimulation (1964)
Of the methods used to investigate the neurophysiological basis of behavior, perhaps the most direct and dramatic is electrical stimulation of the brain. Direct stimulation of the brain is considered a crude method for the exploration of cerebral functions, and the understanding of the results is limited. The chapter describes methodology for cinemanalysis, telerecording, and telestimulation to study free behavior during brain stimulation. It also demonstrates that spontaneous activities are recorded, identified and quantified, allowing the systematic study of free and evoked behavior on both individual and social levels. The chapter also discusses the types and significance of behavior evoked by brain stimulation in unrestrained subjects and presents a theory of fragmental organization of behavior. Brain stimulation evokes (1) stereotyped tonic or phasic activity without any emotional disturbance, (2) driving activity to reach an objective with a motor performance adapted to the relations between subject and purpose, (3) changes in behavioral tuning that are detected in isolated animals because of the lack of manifestations, but may modify decisively the character of response to normal stimuli, (4) inhibition of spontaneous or evoked behavior, and (5) abnormal effects such as tremor or seizures.
www.sciencedirect.com/science/article/pii/S0074774208607734

Rodríguez Delgado’s research interests centered on the use of electrical signals to evoke responses in the brain. His earliest work was with cats, but he later did experiments with monkeys and humans, including psychiatric patients.[3][4]

Much of Rodríguez Delgado’s work was with an invention he called a stimoceiver, a radio which joined a stimulator of brain waves with a receiver which monitored E.E.G. waves and sent them back on separate radio channels. Some of these stimoceivers were as small as half-dollars. This allowed the subject of the experiment full freedom of movement while allowing the experimenter to control the experiment. This was a great improvement from his early equipment which included visual disturbance in those whose wires ran from the brain to bulky equipment that both recorded data and delivered the desired electrical charges to the brain. This early equipment, while not allowing for a free range of movement, was also the cause of infection in many subjects.[5]

The stimoceiver could be used to stimulate emotions and control behavior. According to Rodríguez Delgado, “Radio Stimulation of different points in the amygdala and hippocampus in the four patients produced a variety of effects, including pleasant sensations, elation, deep, thoughtful concentration, odd feelings, super relaxation, colored visions, and other responses.” Rodríguez Delgado stated that “brain transmitters can remain in a person’s head for life. The energy to activate the brain transmitter is transmitted by way of radio frequencies.”[6]

Using the stimoceiver, Rodríguez Delgado found that he could not only elicit emotions, but he could also elicit specific physical reactions. These specific physical reactions, such as the movement of a limb or the clenching of a fist, were achieved when Rodríguez Delgado stimulated the motor cortex. A human whose implants were stimulated to produce a reaction were unable to resist the reaction and so one patient said “I guess, doctor, that your electricity is stronger than my will”. Some consider one of Rodríguez Delgado‘s most promising finds is that of an area called the septum within the limbic region. This area, when stimulated by Rodríguez Delgado, produced feelings of strong euphoria. These euphoric feelings were sometimes strong enough to overcome physical pain and depression.[2]

Rodríguez Delgado created many inventions and was called a “technological wizard” by one of his Yale colleagues. Other than the stimoceiver, Rodríguez Delgado also created a “chemitrode” which was an implantable device that released controlled amounts of a drug into specific brain areas. Rodríguez Delgado also invented an early version of what is now a cardiac pacemaker.[2]

In Rhode Island, Rodríguez Delgado did some work at what is now a closed mental hospital. He chose patients who were “desperately ill patients whose disorders had resisted all previous treatments” and implanted electrodes in about 25 of them. Most of these patients were either schizophrenics or epileptics. To determine the best placement of electrodes within the human patients, Delgado initially looked to the work of Wilder Penfield, who studied epileptics’ brains in the 1930s, as well as earlier animal experiments, and studies of brain-damaged people.[2]

The most famous example of the stimoceiver in action occurred at a Córdoba bull breeding ranch. Rodríguez Delgado stepped into the ring with a bull which had had a stimoceiver implanted within its brain. The bull charged Delgado, who pressed a remote control button which caused the bull to stop its charge. Always one for theatrics, he taped this stunt and it can be seen today.[7] The region of the brain Rodríguez Delgado stimulated when he pressed the hand-held transmitter was the caudate nucleus. This region was chosen to be stimulated because the caudate nucleus is involved in controlling voluntary movements.[2] Rodríguez Delgado claimed that the stimulus caused the bull to lose its aggressive instinct.

Although the bull incident was widely mentioned in the popular media, Rodríguez Delgado believed that his experiment with a female chimpanzee named Paddy was more significant. Paddy was fitted with a stimoceiver linked to a computer that detected the brain signal called a spindle which was emitted by her part of the brain called the amygdala. When the spindle was recognized, the stimoceiver sent a signal to the central gray area of Paddy’s brain, producing an ‘aversive reaction’. In this case, the aversive reaction was an unpleasant or painful feeling. The result of the aversive reaction to the stimulus was a negative feedback to the brain.[2] Within hours her brain was producing fewer spindles as a result of the negative feedback.[8] As a result, Paddy became “quieter, less attentive and less motivated during behavioral testing”. Although Paddy’s reaction was not exactly ideal, Rodríguez Delgado hypothesized that the method used on Paddy could be used on others to stop panic attacks, seizures, and other disorders controlled by certain signals within the brain.[2] [9][10] Publication

José Rodríguez Delgado authored 134 scientific publications within two decades (1950-1970) on electrical stimulation on cats, monkeys and patients – psychotic and non-psychotic. In 1963, New York Times featured his experiments on their front page. Rodríguez Delgado had implanted a stimoceiver in the caudate nucleus of a fighting bull. He could stop the animal mid-way that would come running towards a waving red flag.[11]

He was invited to write his book Physical Control of the Mind: Toward a Psychocivilised Society as the forty-first volume in a series entitled World Perspectives edited by Ruth Nanda Anshen. In it Rodríguez Delgado has discussed how we have managed to tame and civilize our surrounding nature, arguing that now it was time to civilize our inner being. The book has been a centre of controversy since its release.[1] The tone of the book was challenging and the philosophical speculations went beyond the data. Its intent was to encourage less cruelty, and a more benevolent, happier, better man, however it clashed religious sentiments.

José Rodríguez Delgado continued to publish his research and philosophical ideas through articles and books for the next quarter century. He in all wrote over 500 articles and six books. His final book in 1989, was named Happiness and had 14 editions.

Delgado later learned he could duplicate the results he got with the stimoceiver without any implants at all, using only specific types of electromagnetic radiation interacting with the brain. He lamented he didn’t have access to the technology when Franco was in power, as it would have allowed him to control the dictator at a distance.

 

Articles

Books

 

  • Elliot S. Valenstein (1973). Brain Control: A Critical Examination of Brain Stimulation and Psychosurgery. John Wiley & Sons. ISBN 978-0-471-89784-2.

 

Delgado, J. M. R.. (1970). SCIENCE AND HUMAN VALUES. Zygon®

Plain numerical DOI: 10.1111/j.1467-9744.1970.tb01129.x
DOI URL
directSciHub download

Blackwell, B.. (2012). Jose Manuel Rodriguez Delgado. Neuropsychopharmacology

Plain numerical DOI: 10.1038/npp.2012.160
DOI URL
directSciHub download

Delgado-García, J. M.. (2000). Why move the eyes if we can move the head?. Brain Research Bulletin

Plain numerical DOI: 10.1016/S0361-9230(00)00281-1
DOI URL
directSciHub download

Delgado-García, J. M.. (2001). Estructura y función del cerebelo. Revista de Neurologia
Wilder, J.. (2018). Physical Control of the Mind. Toward a Psychocivilized Society. American Journal of Psychotherapy

Plain numerical DOI: 10.1176/appi.psychotherapy.1971.25.3.485
DOI URL
directSciHub download

Molaee-Ardekani, B., Márquez-Ruiz, J., Merlet, I., Leal-Campanario, R., Gruart, A., Sánchez-Campusano, R., … Wendling, F.. (2013). Effects of transcranial Direct Current Stimulation (tDCS) on cortical activity: A computational modeling study. Brain Stimulation

Plain numerical DOI: 10.1016/j.brs.2011.12.006
DOI URL
directSciHub download

Delgado, J. M. R.. (1964). Free Behavior and Brain Stimulation. International Review of Neurobiology

Plain numerical DOI: 10.1016/S0074-7742(08)60773-4
DOI URL
directSciHub download

Delgado, J. M. R., Hamlin, H., & Chapman, W. P.. (1952). Technique of Intracranial Electrode Implacement for Recording and Stimulation and its Possible Therapeutic Value in Psychotic Patients. Stereotactic and Functional Neurosurgery

Plain numerical DOI: 10.1159/000105792
DOI URL
directSciHub download

Delgado-García, J. M., & Gruart, A.. (2005). Firing activities of identified posterior interpositus nucleus neurons during associative learning in behaving cats. Brain Research Reviews

Plain numerical DOI: 10.1016/j.brainresrev.2004.10.006
DOI URL
directSciHub download

Márquez-Ruiz, J., Ammann, C., Leal-Campanario, R., Ruffini, G., Gruart, A., & Delgado-García, J. M.. (2016). Synthetic tactile perception induced by transcranial alternating-current stimulation can substitute for natural sensory stimulus in behaving rabbits. Scientific Reports

Plain numerical DOI: 10.1038/srep19753
DOI URL
directSciHub download

10 arguments for deleting your ‘social’ media accounts right now – Jaron Lanier


Further References

Lanier, J.. (2013). Who owns the future?. Who Owns the Future?

Plain numerical DOI: 10.1093/mnras/sts454
DOI URL
directSciHub download

Kurt, W.. (2014). An Interview with Jaron Lanier. Serials Review

Plain numerical DOI: 10.1080/00987913.2007.10765121
DOI URL
directSciHub download

Williams, P. J.. (2001). Payback time. Index on Censorship

Plain numerical DOI: 10.1080/03064228908536949
DOI URL
directSciHub download

You are not a gadget: a manifesto. (2013). Choice Reviews Online

Plain numerical DOI: 10.5860/choice.47-5602
DOI URL
directSciHub download

Gonzalez-Franco, M., & Lanier, J.. (2017). Model of illusions and virtual reality. Frontiers in Psychology

Plain numerical DOI: 10.3389/fpsyg.2017.01125
DOI URL
directSciHub download

Virtual Reality Society. (2017). VPL Research Jaron Lanier – Virtual Reality
Kurt, W.. (2007). Virtual reality: an interview with Jaron Lanier. Serials Review

Plain numerical DOI: 10.1016/j.serrev.2007.05.009
DOI URL
directSciHub download

Frith, J., Morain, M., Cummings, C., & Berube, D.. (2011). The shallows: What the Internet is doing to our brains You are not a gadget: A manifesto. Journal of Communication

Plain numerical DOI: 10.1111/j.1460-2466.2010.01535.x
DOI URL
directSciHub download

LANIER, J.. (2010). ESSAY; Does the Digital Classroom Enfeeble the Mind?. New York Times Magazine
Lanier, J.. (1998). The serfdom of crowds. Harper’s Magazine
Kurt, W., & Parks, B.. (2007). An Interview with Jaron Lanier. Serials Review

Conférence avec Edward Snowden (Taking individual risk for the greater good)

Que faire face à la société de surveillance ? / Facing a surveillance society

Échanges avec et autour d’Edward Snowden en direct de Russie

6 décembre 2018 Université Paris

Panthéon-Sorbonne Conférence


Further References

Lyon, D.. (2014). Surveillance, Snowden, and Big Data: Capacities, consequences, critique. Big Data & Society

Plain numerical DOI: 10.1177/2053951714541861
DOI URL
directSciHub download

Bauman, Z., Bigo, D., Esteves, P., Guild, E., Jabri, V., Lyon, D., & Walker, R. B. J.. (2014). After Snowden: Rethinking the impact of surveillance. International Political Sociology

Plain numerical DOI: 10.1111/ips.12048
DOI URL
directSciHub download

Landau, S.. (2013). Making sense from snowden: What’s significant in the NSA surveillance revelations. IEEE Security and Privacy

Plain numerical DOI: 10.1109/MSP.2013.90
DOI URL
directSciHub download

Preibusch, S.. (2015). Privacy behaviors after Snowden. Communications of the ACM

Plain numerical DOI: 10.1145/2663341
DOI URL
directSciHub download

Hope, A.. (2016). Surveillance after Snowden. Information, Communication & Society

Plain numerical DOI: 10.1080/1369118x.2016.1199726
DOI URL

directSciHub download

</p>

Qin, J.. (2015). Hero on Twitter, Traitor on News: How Social Media and Legacy News Frame Snowden. International Journal of Press/Politics

Plain num>erical DOI: 10.1177/1940161214566709
DOI URL
directSciHub download

 

</p

Rainie, L., & Madden, M.. (2015). Americans’ privacy strategies Post-Snowden. Pew Research Centeran><br< span=””>>

</br<>

Intelligence: from secrets to policy. (2013). >Choice Reviews Online

Plain numerical DOI: 10.5860/choice.38-0594
DOI URL
directSciHub download

Ring, T.. (2015). The enemy within. Computer Fraud and Security

Plain numerical DOI: 10.1016/S1361-3723(15)30111-1
DOI URL
directSciHub download
[accotextannotation”>rdion c>pan>licktoclose=”true”]

[/accordion]
Deibert, R.. (2015). The geopolitics of cyberspace after snowden. journal”>Current History
[ac
cordion clicktoclose=”true”] [/accordion]
Fondren, E.. (2017). Snowden. American Journalism

Plain numerical DOI: 10.1080/08821127.2017.1344075
DOI URL

directSciHub download

Scheuerman, W. E.. (ss=”refyear”>2014). Whistleblowing as civil disobedience: The case of Edward Snowden. Philosophy and Social Criticism

Plain numerical DOI: 10.1177/0191453714537263
DOI URL
directSciHub download<br>

The nucleus accumbens, dopamine, and social learning

Key excerpt
The nucleus accumbens has a significant role in the cognitive processing of motivation, aversion, reward (i.e., incentive salience, pleasure, and positive reinforcement), and reinforcement learning (e.g., Pavlovian-instrumental transfer).

 

Sagittal MRI slice with highlighting (red) indicating the nucleus accumbens.

The nucleus accumbens (NAc or NAcc), also known as the accumbens nucleus, or formerly as the nucleus accumbens septi (Latin for nucleus adjacent to the septum) is a region in the basal forebrain rostral to the preoptic area of the hypothalamus.[1] The nucleus accumbens and the olfactory tubercle collectively form the ventral striatum. The ventral striatum and dorsal striatum collectively form the striatum, which is the main component of the basal ganglia.The dopaminergic neurons of the mesolimbic pathway project onto the GABAergic medium spiny neurons of the nucleus accumbens and olfactory tubercle. Each cerebral hemisphere has its own nucleus accumbens, which can be divided into two structures: the nucleus accumbens core and the nucleus accumbens shell. These substructures have different morphology and functions.

Different NAcc subregions (core vs shell) and neuron subpopulations within each region (D1-type vs D2-type medium spiny neurons) are responsible for different cognitive functions. As a whole, the nucleus accumbens has a significant role in the cognitive processing of motivation, aversion, reward (i.e., incentive salience, pleasure, and positive reinforcement), and reinforcement learning (e.g., Pavlovian-instrumental transfer); hence, it has a significant role in addiction. In addition, part of the nucleus accumbens core is centrally involved in the induction of slow-wave sleep. The nucleus accumbens plays a lesser role in processing fear (a form of aversion), impulsivity, and the placebo effect. It is involved in the encoding of new motor programs as well.

en.wikipedia.org/wiki/Nucleus_accumbens

Display related posts

Further References

Dölen, G., Darvishzadeh, A., Huang, K. W., & Malenka, R. C.. (2013). Social reward requires coordinated activity of nucleus accumbens oxytocin and serotonin. Nature

Plain numerical DOI: 10.1038/nature12518
DOI URL
directSciHub download

Trezza, V., Damsteegt, R., Achterberg, E. J. M., & Vanderschuren, L. J. M. J.. (2011). Nucleus Accumbens -Opioid Receptors Mediate Social Reward. Journal of Neuroscience

Plain numerical DOI: 10.1523/JNEUROSCI.5492-10.2011
DOI URL
directSciHub download

Day, J. J., Roitman, M. F., Wightman, R. M., & Carelli, R. M.. (2007). Associative learning mediates dynamic shifts in dopamine signaling in the nucleus accumbens. Nature Neuroscience

Plain numerical DOI: 10.1038/nn1923
DOI URL
directSciHub download

Wise, R.. (1989). Brain Dopamine And Reward. Annual Review of Psychology

Plain numerical DOI: 10.1146/annurev.psych.40.1.191
DOI URL
directSciHub download

Prof. Rainer Mausfeld – Neoliberal indoctrination: Why do the lambs remain silent?

www.uni-kiel.de/psychologie/mausfeld/
Mausfeld_Why do the lambs remain silent_2015
Mausfeld focuses on perceptual psychology and also works on the theoretical foundations of experimental psychology and the psychology of understanding. He also deals with the rivalry of cognitive psychology and cognitive neuroscience in cognitive science. Another area of interest is the history of ideas in the natural sciences. He sees a major problem of the relationship between psychology and biology in neurological neo-reductionism. In contrast to biologistic approaches, he sees the peculiarity of the spiritual, inter alia, in the intrinsic multiperspectivity of the mind.
Mausfeld points out that knowledge of neural circuitry and activity is not enough to explain consciousness and thought processes. Not even the behavior of nematodes can be deduced from the activity of their 302 neurons. According to Mausfeld’s view, the relationship between nature and mind must be below the neural level in the sphere of physics. Evidence is given by the fact that nature is actually more enigmatic to us than our consciousness in itself. In modern physics it has become clear that the physical does not have the properties of matter ascribed to it. Mausfeld sees the special aspect of consciousness in the simplicity and wholeness of the subjective experience, which, however, reveals itself to the psychologist as a complex interaction of unconscious factors. The intrinsic multiperspectivity of thinking, which first opens up the possibilities for thought and action alternatives to humans after mouse field, results from the complex interplay of the most varied of factors.
White torture and responsibility of science
In his work, Mausfeld illustrates the role of psychologists in the development, application and justification of modern white torture methods. These goals are not, as claimed, the extraction of information, but rather breaking the will, disciplining, humiliating and shaming the victims. In his account, an American Psychological Association (APA) working group to investigate the involvement of psychologists acting on behalf of the Defense Secretary. Mausfeld uses the example of torture research to define ethical and legal principles and limits of scientific work. He regards the observance of human rights as fully binding.

Mausfeld, R.. (2009). Psychology , ’ white torture ’ and the responsibility of scientists. Psychologische Rundschau

Plain numerical DOI: 10.1186/s12882-018-0886-5
DOI URL
directSciHub download

Mausfeld, R.. (2009). Psychologie, weiße folter’ und die verantwortlichkeit von wissenschaftlern. Psychologische Rundschau

Plain numerical DOI: 10.1026/0033-3042.60.4.229
DOI URL
directSciHub download

Cognitive techniques

According to Mausfeld, the cognitive ones are more important than the affective techniques, since opinions are more stable than emotions. Here Mausfeld examines the following methods:

  • Representation of facts as opinion
  • Fragmenting coherent facts so that the context, such as the historical context, is lost
  • Decontextualization of facts: The context of the facts is removed, so that the facts become incomprehensible isolated individual cases, which have no general relevance
  • Misleading recontextualization: Information is embedded in a foreign context, so that they take on a different character and, for example, no longer lead to outrage in human rights violations.
  • Repetition supports the “perceived truth”
  • Designing the range of opinions so that the desired seems to be in the middle, which most people strive for, if they are unfamiliar, because they then keep to the middle seein it as “neutral and balanced”
  • Making facts invisible through media selection, distraction and attention control
  • “Meta-propaganda”: It is part of every propaganda to claim that the news of the enemy is wrong because it is propaganda

The development of more efficient manipulation techniques rests on identifying psychological “weak spots” – those intrinsic design aspects of our mind and principles of human information processing that can be exploited for manipulation purposes. Most importantly, such principles are, by the very nature of our cognitive architecture, beyond conscious control. (…) Our mind has many hard-wired weaknesses that can be exploited for manipulative purposes, that facilitate our utilitarian abuse by the political and economic elites for maintaining and expanding their power. However, we also innately dispose of a rich repertoire of ways to use our reasoning capabilities to recognize manipulative contexts and to actively avoid them. This repertoire is akin to a natural cognitive immune system against being manipulated, but we have to take the deliberate decision to actually use it.


neoliberal indoctrination - Copy

Further References

Mausfeld, R.. (2012). On some unwarranted tacit assumptions in cognitive neuroscience. Frontiers in Psychology

Plain numerical DOI: 10.3389/fpsyg.2012.00067
DOI URL
directSciHub download

Mausfeld, R., & Heyer, D.. (2012). Colour Perception: Mind and the physical world. Colour Perception: Mind and the Physical World

Plain numerical DOI: 10.1093/acprof:oso/9780198505006.001.0001
DOI URL
directSciHub download

Mausfeld, R.. (2005). The Physicalistic Trap in Perception Theory. In Perception and the Physical World

Plain numerical DOI: 10.1002/0470013427.ch4
DOI URL
directSciHub download

Mausfeld, R.. (2012). Der Schein des Realen.. Näher Dran? Zur Phänomenologie Des Wahrnehmens
Mausfeld, R.. (2009). Psychologie, weiße folter’ und die verantwortlichkeit von wissenschaftlern. Psychologische Rundschau

Plain numerical DOI: 10.1026/0033-3042.60.4.229
DOI URL
directSciHub download

Wendt, G., Faul, F., & Mausfeld, R.. (2008). Highlight disparity contributes to the authenticity and strength of perceived glossiness. Journal of Vision

Plain numerical DOI: 10.1167/8.1.14
DOI URL
directSciHub download

Mausfeld, R.. (2010). Psychologie, biologie, kognitive neurowissenschaften zur gegenwärtigen dominanz neuroreduktionistischer positionen zu ihren stillschweigenden grundannahmen. Psychologische Rundschau

Plain numerical DOI: 10.1026/0033-3042/a000045
DOI URL
directSciHub download

Heyer, D., & Mausfeld, R.. (2002). Perception and the physical world: psychological and philosophical issues in perception. Perception
Narens, L., & Mausfeld, R.. (1992). On the Relationship of the Psychological and the Physical in Psychophysics. Psychological Review

Plain numerical DOI: 10.1037/0033-295X.99.3.467
DOI URL
directSciHub download

Mausfeld, R.. (2012). “Colour” As Part of the Format of Different Perceptual Primitives: The Dual Coding of Colour. In Colour Perception: Mind and the Physical World

Plain numerical DOI: 10.1093/acprof:oso/9780198505006.003.0013
DOI URL
directSciHub download

Mausfeld, R.. (2013). The Attribute of Realness and the Internal Organization of Perceptual Reality. In Handbook of Experimental Phenomenology: Visual Perception of Shape, Space and Appearance

Plain numerical DOI: 10.1002/9781118329016.ch3
DOI URL
directSciHub download

Mausfeld, R.. (2001). What’s within? Can the internal structure of perception be derived from regularities of the external world?. Behavioral and Brain Sciences

Plain numerical DOI: 10.1017/S0140525X01530083
DOI URL
directSciHub download

Mausfeld, R., & Andres, J.. (2002). Second-order statistics of colour codes modulate transformations that effectuate varying degrees of scene invariance and illumination invariance. Perception

Plain numerical DOI: 10.1068/p07sp
DOI URL
directSciHub download

Mausfeld, R.. (2006). Wahrnehmung: Geschichte und Ansätze. In Handbuch der Allgemeinen Psychologie – Kognition

Plain numerical DOI: 10.1111/j.1365-2141.2008.07177.x
DOI URL
directSciHub download

Mausfeld, R.. (2010). Intrinsic multiperspectivity: On the architectural foundations of a distinctive mental capacity. In Cognition and Neuropsychology: International Perspectives on Psychological Science

Plain numerical DOI: 10.4324/9780203845820
DOI URL
directSciHub download

Mausfeld, R.. (2013). The Biological Function of Sensory Systems. In Neurosciences – From Molecule to Behavior: a university textbook

Plain numerical DOI: 10.1007/978-3-642-10769-6_12
DOI URL
directSciHub download

Andres, J., & Mausfeld, R.. (2008). Structural description and qualitative content in perception theory. Consciousness and Cognition

Plain numerical DOI: 10.1016/j.concog.2006.11.005
DOI URL
directSciHub download

Mausfeld, R., Wendt, G., & Golz, J.. (2014). Lustrous material Appearances: Internal and external constraints on triggering conditions for binocular lustre. I-Perception

Plain numerical DOI: 10.1068/i0603
DOI URL
directSciHub download