02Jan 2024 by Post

Physics and Chemistry Could Not Give Rise to Biology

behavior, Big Bang, biological complexity, biology, Brian Miller, Casey Luskin, Chemistry, convergence, death, Diversity, Douglas Axe, electrostatic laws, environmental conditions, enzymes, equilibrium, Evolution, evolutionary algorithms, first law of thermodynamics, George Ellis, gravity, initial conditions, Intelligent Design, laws of forms, laws of nature, leaves, mass-energy, material mechanisms, natural selection, Nature (journal), nucleotide sequences, periodic table of elements, phenotypic plasticity, physics, proteins, quantum physics, Rope Kojonen, Second Law of Thermodynamics, stem cells, Stephen Dilley, structuralism, The Compatibility of Evolution and Design, The Compatibility of Evolution and Design (series)
The laws of nature provide stable conditions and physical boundaries within which biological outcomes are possible. Source
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25Sep 2021 by Post

The Design Connection in Biological Tracking Systems

anatomy, antibiotics, biology, CELS 2021, Conference on Engineering in Living Systems, environmental conditions, Evolution, evolvability, information, Intelligent Design, irreducibly complex systems, neo-Darwinian evolution, physiology, sensors, switches, technological innovation, timescales, tracking systems, waiting times, Zoltan Szallasi
If organisms resulted from haphazard undirected processes, their design constraints would be few and highly flexible. Source
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24Sep 2021 by Post

Nearly All of Evolution Is Best Explained by Engineering

adaptive mechanisms, aluminum soils, analyzers, biology, biophysicists, cave fish, CELS 2021, Conference on Engineering in Living Systems, DNA, dog breeds, Engineering, engineering model, environmental conditions, evolutionary theory, gene regulatory network, gulls, hair, Harold Garner, Intelligent Design, James Shapiro, John Fondon, Laridae, Life Sciences, maize, Midas cichlids, natural genetic engineering, natural selection, phenotypic plasticity, Ralf Sommer, sodium, temperature, yeast
Transposable elements modify gene regulation in maize to confer drought tolerance, alter flowering time, and enable plants to grow in toxic aluminum soils. Source
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