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Organisms must balance energy intake with the energy required for growth, maintenance and reproduction. These trade-offs result in a variety of survivorship and reproductive strategies, including semelparity and iteroparity. Semelparous species, like annual plants, have only one reproductive episode in their lifetimes and consequently have short lifespans. Iteroparous species, by contrast, have many reproductive events during their lifetimes but have relatively few offspring. These two...
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The universe is composed of matter in different forms, and all forms of matter contain energy.  The different forms of energy on Earth originate from the Sun — the ultimate energy source. Plants capture light energy from the Sun, and, via the process of photosynthesis, convert it into chemical energy. This stored energy from plants can be harnessed in many ways. For example, eating plant products as food provides energy for our body to function, and burning wood or coal (fossilized...
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When solving problems using the energy conservation law, the object (system) to be studied should first be identified. Often, in applications of energy conservation, we study more than one body at the same time. Second, identify all forces acting on the object and determine whether each force doing work is conservative. If a non-conservative force (e.g., friction) is doing work, then mechanical energy is not conserved. The system must then be analyzed with non-conservative work. Third, for...
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The work done to bring a charge through a distance r is given by the potential difference between the initial and the final position. To assemble a collection of point charges, the total work done can be expressed in terms of the product of each pair of charges divided by their separation distance, defined with respect to a suitable origin. Solving this expression gives the energy stored in a point charge distribution.
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Introduction to Topical Collection: Changing Values and Energy Systems.

Joost Alleblas1, Anna Melnyk1, Ibo van de Poel2

  • 1Department Values, Technology & Innovation, TU Delft, Jaffalaan 5, Delft, 2628 BX, The Netherlands.

Science and Engineering Ethics
|August 9, 2024
PubMed
Summary
This summary is machine-generated.

Understanding value change in energy systems is crucial for inclusive energy transitions. Incorporating diverse values like energy democracy and justice ensures adaptable, equitable energy futures.

Area of Science:

  • Socio-technical systems analysis
  • Energy policy and governance
  • Ethics of technology

Background:

  • Energy transitions often prioritize limited values (e.g., sustainability), neglecting others like energy democracy and justice.
Keywords:
DesignEnergyEnergy systemEnergy transitionEthicsVale changeValue

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  • Entrenched values in current energy system designs hinder adaptation to new concerns, necessitating costly overhauls.