The Road to the Nobel Prize

No discussion of irreproducible science would be complete without at least a brief consideration of what happens when scientists go a step or two beyond questionable research practice (QRP)-driven research. So, continuing the metaphor of scientific journeys, Robert Park’s iconic book title, Voodoo Science: The Road from Foolishness to Fraud, encapsulates the interdisciplinary examples of what Irving Langmuir (a Nobel Prize recipient in chemistry) termed pathological science more than 65 years ago. The chapter discusses more recent examples of this phenomenon in some detail from both the physical sciences (cold fusion) and their sociobehavioral counterparts (the Daryl Bem psi episode). The latter (undoubtedly a virtual mentee of Joseph Banks Rhine whose exploits were exposed by Professor Langmuir) is given more prominence here because of its influence on the genesis of reproducibility crisis itself.

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The inner representation of the external world - from conditioned reflexes to high level mental functions in the light of Nobel Prizes

Acta Medica Marisiensis ◽

10.1515/amma-2015-0001 ◽

2014 ◽

Vol 60 (6) ◽

pp. 238-243

Author(s):

T. Szilágyi ◽

K. Orbán-Kis

Keyword(s):

Nobel Prize ◽

Historical Review ◽

Paradigm Shifts ◽

Activation Patterns ◽

Mental Functions ◽

The Road ◽

Nobel Prizes ◽

Prize Award ◽

Pass Through ◽

High Level

Abstract In this paper the seminal results of the 2014 Nobel Prize in Physiology or Medicine Laureates are presented. First, a historical review of the development of our knowledge is provided along with the major paradigm shifts, by looking at the Nobel prizes awarded in the field of neuroscience in the last 110 years. We outline the major discoveries that were necessary for humankind to pass through the road leading to the remarkable understanding of high level mental functions, which led to this year’s Nobel Prize award. Next, the ground breaking discoveries of this year Nobel laureates are presented, which provide insights how neural representations of the environment are formed in the association cortices. These cortical areas are many synapses away from sensory receptors and motor outputs, and their activity do not reflect directly the activation patterns of the receptor population, but depends more strongly on intrinsic cortical computations. We also present how ensembles of specialized cells work together to compute complex cognitive functions and behaviour.

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The road of gaining mass for gauge boson: interpretation of Nobel Prize in physics 2013

Chinese Science Bulletin ◽

10.1007/s11434-014-0204-y ◽

2014 ◽

Vol 59 (15) ◽

pp. 1784-1786

Author(s):

Qing Wang

Keyword(s):

Gauge Boson ◽

Nobel Prize ◽

The Road ◽

Nobel Prize In Physics

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Seeking to uncover biology's chemical roots

Emerging Topics in Life Sciences ◽

10.1042/etls20190012 ◽

2019 ◽

Vol 3 (5) ◽

pp. 435-443 ◽

Cited By ~ 3

Author(s):

Addy Pross

Keyword(s):

Environmental Changes ◽

Biological Systems ◽

Significant Development ◽

The Road ◽

Physical Chemical ◽

Systems Chemistry ◽

Biological World ◽

Inanimate Matter ◽

The Origin Of Life ◽

Opening Up

Despite the considerable advances in molecular biology over the past several decades, the nature of the physical–chemical process by which inanimate matter become transformed into simplest life remains elusive. In this review, we describe recent advances in a relatively new area of chemistry, systems chemistry, which attempts to uncover the physical–chemical principles underlying that remarkable transformation. A significant development has been the discovery that within the space of chemical potentiality there exists a largely unexplored kinetic domain which could be termed dynamic kinetic chemistry. Our analysis suggests that all biological systems and associated sub-systems belong to this distinct domain, thereby facilitating the placement of biological systems within a coherent physical/chemical framework. That discovery offers new insights into the origin of life process, as well as opening the door toward the preparation of active materials able to self-heal, adapt to environmental changes, even communicate, mimicking what transpires routinely in the biological world. The road to simplest proto-life appears to be opening up.

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