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Roger Elliott is a physicist known for his contributions to the field of condensed matter physics, particularly in the areas of superconductivity and magnetism. He has been involved in various research projects and has published numerous papers related to these topics. In addition to his research work, Elliott has also been involved in academic positions and has contributed to the education and mentoring of students in the field of physics.

Negentropy is a concept derived from the term "entropy," which originates from thermodynamics and information theory. While entropy often symbolizes disorder or randomness in a system, negentropy refers to the degree of order or organization within that system. In thermodynamics, negentropy can be thought of as a measure of how much energy in a system is available to do work, reflecting a more ordered state compared to a disordered one.

Electronic feedback generally refers to a system where the output of a device or process is fed back into the system to influence its operation, often to achieve desired performance or stability. This concept can be applied in various fields such as electronics, control systems, and even in social technologies. ### In Electronics and Control Systems 1. **Basic Concept**: In electronic circuits, feedback occurs when a portion of the output signal is returned to the input. This can be positive or negative feedback.

David Cohen is a notable American physicist whose work primarily focuses on the areas of experimental physics, including magnetic resonance, imaging techniques, and applications of physics in medical technologies. He has contributed significantly to the understanding of various physical phenomena and has been involved in research that enhances imaging and diagnostic methods. Cohen may also be associated with advancements in both fundamental and applied physics, potentially influencing fields such as biomedical engineering and material science.

David G. Cory is a physicist known for his work in the fields of quantum optics and quantum information science. He has contributed to research related to quantum control, quantum sensing, and the development of quantum technologies. His academic work has often focused on experimentally implementing quantum concepts and exploring their applications in various technologies. Cory is associated with institutions such as the Massachusetts Institute of Technology (MIT) and has published numerous scientific papers in his field.

Davis Earle is not widely recognized as a significant public figure, brand, or entity based on information available up to October 2023. It’s possible that "Davis Earle" could refer to a person, business, or character not broadly known or emerging in specific contexts that may not have reached my training data.

Eli Franklin Burton is best known as an American writer and editor who made significant contributions to the field of religion, particularly in the context of the Latter-day Saint movement. He is noted for his work on the history of the Church of Jesus Christ of Latter-day Saints and has published several books and articles related to this area. Burton's writings often explore themes such as faith, church history, and religious doctrine.

Erich Vogt is a notable physicist known for his contributions to the field of nuclear science and for his role in various scientific organizations. He is particularly recognized for his work in the fields of nuclear reactors and particle physics. Vogt has been involved in research and development activities, often focusing on nuclear technology and its applications. In addition to his scientific work, he has been influential in promoting science education and has served in leadership roles within various academic and research institutions.

Frank Allen is a physicist known for his contributions to various fields, including condensed matter physics and materials science. He has been involved in research related to superconductivity, magnetic materials, and other topics within the broad domain of physics. Additionally, he may have been active in areas such as education and outreach in the scientific community.

George Volkoff could refer to different individuals or contexts depending on the field of interest, as it's not a widely recognized name. If you are referring to a specific George Volkoff, please provide more context or clarify the domain (e.g., scientific, historical, literary) so I can assist you better. One notable figure you might refer to is George Volkoff, a physicist known for his work in theoretical physics.

As of my last knowledge update in October 2023, "Gordon Patterson" may refer to various individuals or contexts, but there is no widely known or prominent figure by that name that stands out universally. It could be a reference to a person in a specific profession, a fictional character, or even a local figure.

Goodman's conjecture is a hypothesis in the field of combinatorial geometry, proposed by the mathematician Jesse Goodman in 1987. The conjecture deals with the arrangement of points in the plane and relates to the number of convex polygons that can be formed by connecting those points.

Tara Shears is a prominent astrophysicist and a professor known for her work in the field of particle physics and astrophysics. She is recognized for her involvement in various research projects and initiatives, often focusing on understanding the fundamental nature of the universe. Additionally, she has been engaged in public outreach and education, aiming to inspire interest in science and space exploration among the general public.

Raymond Laflamme is a prominent Canadian physicist known for his contributions to quantum information science and quantum computing. He has worked on various aspects of these fields, including quantum error correction, quantum algorithms, and the foundations of quantum mechanics. Laflamme is also known for his role in establishing research initiatives and academic programs focusing on quantum technologies. He is associated with several prestigious institutions and has published extensively in the field.

Richard E. Taylor is a notable Canadian physicist known for his contributions to particle physics. He was awarded the Nobel Prize in Physics in 1990 for his work on deep inelastic scattering experiments at the Stanford Linear Accelerator Center, which provided important insights into the structure of protons and neutrons and contributed to the development of the quark model in particle physics. Taylor's research has significantly advanced the understanding of the fundamental components of matter.

Robert Edward Bell might refer to different individuals depending on the context, as there may be multiple people with that name. However, one notable Robert Edward Bell is a professor in the field of electrical engineering and computer science, known for contributions in areas such as telecommunications and signal processing.

Robert J. Birgeneau is a well-known physicist and educator, recognized for his contributions to the field of condensed matter physics. He has held prominent academic and administrative positions, including serving as the Chancellor of the University of California, Berkeley from 2004 to 2013. Birgeneau's research interests include the study of materials with complex electronic and magnetic properties, particularly in relation to high-temperature superconductors.

Robert William Boyle is not a widely recognized public figure or concept as of my last knowledge update in October 2023. However, you might be referring to Robert Boyle (1627–1691), a prominent Anglo-Irish philosopher, chemist, and physicist who is best known for his work in the field of gas laws and for being one of the founders of modern chemistry. Boyle is famous for Boyle's Law, which describes the relationship between the pressure and volume of a gas.

The cardinal characteristics of the continuum are important concepts in set theory, particularly in the study of the real numbers and their cardinality. They specifically describe certain properties related to the size and structure of the continuum (the set of real numbers) and other related sets. Here are some of the main cardinal characteristics of the continuum: 1. **c**: This is the cardinality of the continuum, representing the size of the set of real numbers.

A cardinal number is a number that expresses quantity. It tells us "how many" of something there are. For example, the numbers 1, 2, 3, and so on are cardinal numbers because they indicate specific counts of objects. Cardinal numbers can be finite (like 0, 1, 2, 3) or infinite (like the concept of infinity).