- New
-
Topics
- All Categories
- Metaphysics and Epistemology
- Value Theory
- Science, Logic, and Mathematics
- Science, Logic, and Mathematics
- Logic and Philosophy of Logic
- Philosophy of Biology
- Philosophy of Cognitive Science
- Philosophy of Computing and Information
- Philosophy of Mathematics
- Philosophy of Physical Science
- Philosophy of Social Science
- Philosophy of Probability
- General Philosophy of Science
- Philosophy of Science, Misc
- History of Western Philosophy
- Philosophical Traditions
- Philosophy, Misc
- Other Academic Areas
- Journals
- Submit material
- More
You Get What You Need: An Examination of Purpose‐Based Inheritance Reasoning in Undergraduates, Preschoolers, and Biological Experts
Cognitive Science 38 (2):197-243 (2014)
Abstract
This set of seven experiments examines reasoning about the inheritance and acquisition of physical properties in preschoolers, undergraduates, and biology experts. Participants (N = 390) received adoption vignettes in which a baby animal was born to one parent but raised by a biologically unrelated parent, and they judged whether the offspring would have the same property as the birth or rearing parent. For each vignette, the animal parents had contrasting values on a physical property dimension (e.g., the birth parent had a short tail; the rearing parent had a long tail). Depending on the condition, the distinct properties had distinct functions (“function-predictive”) were associated with distinct habitats (“habitat-predictive”), or had no implications (“non-predictive”). Undergraduates' bias to view properties as inherited from the birth parent was reduced in the function- and habitat-predictive conditions. This result indicates a purpose-based view of inheritance, whereby animals can acquire properties that serve a purpose in their environment. This stance was not found in experts or preschoolers. We discuss the results in terms of how undergraduates' purpose-based inheritance reasoning develops and relates to larger-scale misconceptions about Darwinian evolutionary processes, and implications for biology educationAuthor's Profile
My notes
Similar books and articles
Can Darwinian Inheritance Be Extended from Biology to Epistemology?Carla E. Kary - 1982 - PSA: Proceedings of the Biennial Meeting of the Philosophy of Science Association 1982:356 - 369.
Aristotle on the Mechanisms of Inheritance.Devin Henry - 2006 - Journal of the History of Biology 39 (3):425-455.
Do houseflies think? Patterns of induction and biological beliefs in development.Grant Gutheil, Alonzo Vera & Frank C. Keil - 1998 - Cognition 66 (1):33-49.
The Right to Parent One's Biological Baby.Anca Gheaus - 2011 - Journal of Political Philosophy 20 (4):432-455.
A Clash of Intuitions: The Current State of Nonmonotonic Multiple Inheritance Systems.Richmond H. Thomason & John F. Horty - unknown
Three epigenetic information channels and their different roles in evolution.Nicholas Shea, Ido Pen & Tobias Uller - 2011 - Journal of Evolutionary Biology 24:1178-87.
Imitation as an inheritance system.Nicholas Shea - 2009 - Philosophical Transactions of the Royal Society B 364:2429-2443.
On Griffiths and Gray’s Concept of Expanded and Diffused Inheritance.Francesca Merlin - 2010 - Biological Theory 5 (3):206-215.
Adaptive expertise: Effects of type of experience and the level of theoretical understanding it generates.Susan M. Barnett & Barbara Koslowski - 2002 - Thinking and Reasoning 8 (4):237 – 267.
Nonmarital children and post-death parentage: A different path for inheritance law?Paula A. Monopoli - unknown
Is cultural evolution Lamarckian?Maria E. Kronfeldner - 2007 - Biology and Philosophy 22 (4):493-512.
On two arguments for subset inheritance.Kevin Morris - 2013 - Philosophical Studies 163 (1):197-211.
Analytics
Added to PP
2013-11-09
Downloads
24 (#617,476)
6 months
3 (#880,460)
2013-11-09
Downloads
24 (#617,476)
6 months
3 (#880,460)
Historical graph of downloads
Author's Profile
Citations of this work
Override the controversy: Analytic thinking predicts endorsement of evolution.Will M. Gervais - 2015 - Cognition 142 (C):312-321.
Distorting the History of Evolutionary Thought in Conceptual Development Research.Kostas Kampourakis - 2015 - Cognitive Science 39 (4):833-837.
The Importance of Clarifying Evolutionary Terminology Across Disciplines and in the Classroom: A Reply to Kampourakis.Elizabeth A. Ware & Susan A. Gelman - 2015 - Cognitive Science 39 (4):838-841.
What Is More Informative in the History of Science, the Signal or the Noise?Andrew Shtulman - 2015 - Cognitive Science 39 (4):842-845.
Assessment of Genetics Understanding.Philipp Schmiemann, Ross H. Nehm & Robyn E. Tornabene - 2017 - Science & Education 26 (10):1161-1191.
References found in this work
Insides and Essences: Early Understandings of the Non- Obvious.Susan A. Gelman & Henry M. Wellman - 1991 - Cognition 38 (3):213-244.
The scope of teleological thinking in preschool children.Deborah Kelemen - 1999 - Cognition 70 (3):241-272.
The Relation Between Essentialist Beliefs and Evolutionary Reasoning.Andrew Shtulman & Laura Schulz - 2008 - Cognitive Science 32 (6):1049-1062.
Preliminary Evolutionary Explanations: A Basic Framework for Conceptual Change and Explanatory Coherence in Evolution.Kostas Kampourakis & Vasso Zogza - 2009 - Science & Education 18 (10):1313-1340.
Time to get a new mountain? The role of function in children's conceptions of natural kinds.Cara DiYanni & Deborah Kelemen - 2005 - Cognition 97 (3):327-335.
PhilPapers logo by Andrea Andrews and Meghan Driscoll.
This site uses cookies and Google Analytics (see our terms & conditions for details regarding the privacy implications). Use of this site is subject to terms & conditions.
All rights reserved by The PhilPapers Foundation
Server: philpapers-web-6d9b7f7c4c-9lpj8 uwo