Category Archives: BherDheigh

Bher Dheigh Blog, LSF Framework, Woodnote Lab Notes

Research: Exploring the Mysteries of the Universe: The Correlation Between Asymmetry, Geometry, and Symbolism

#asymmetry #geometry #LSFframework #apple #universe

Are you fascinated by the mysteries of the universe? Do you want to dive deeper into the fundamental principles that govern the structure and patterns of the universe? If so, then the The Interconnectedness of Symbolism, Geometry, and Asymmetry in the Universe upcoming paper is a must-read for you!

In this paper – scheduled to publish April 1st – we explore the correlation between Michael Leyton’s theory of asymmetry and geometry, the LSF (Light, Sound, Form) framework, and the symbolism of the apple. Leyton’s theory proposes that the universe is built on a fundamental asymmetry resulting from the Big Bang, and the structures and patterns in the universe are the result of fundamental geometric principles intrinsic to the universe.

The LSF framework suggests that the split between light and dark is the foundation of the physical realm, with the apple symbolizing this split. The apple is a metaphor for the cycle of birth and rebirth and is highly valued for its practical uses and spiritual significance in various cultures.

This paper uncovers the correlation between Leyton’s theory and the apple symbolism, lying in the fundamental asymmetry that governs the physical laws and structures of the universe. Leyton’s theory suggests that the structures and patterns in the universe, including those associated with the apple, are the result of the asymmetrical interactions between matter and energy that occurred during the Big Bang.

By reading this paper, you will gain a deeper understanding of the interconnectedness of all things in the universe, and the role that symbolism, geometry, and asymmetry play in shaping the structures and patterns of the universe. You will also learn about future research directions for exploring the relationship between symbolism, geometry, and asymmetry in the universe.

Join us on this exciting journey of discovery as we explore the mysteries of the universe and uncover the fundamental principles that govern its structure and patterns. Read this paper today and take your first step into the fascinating world of asymmetry, geometry, and symbolism in the universe!

Waterbloom Botanics, WaterBloom Botanics

WaterBloom Botanics Root & Petal Melts – Candles/Wax Melts

#WaterBloomBotanics #RootAndPetalMelts #Candles #WaxMelts #Aromatherapy #NaturalFragrance #EssentialOils

Root & Petal Melts offers a unique and eco-friendly way to enjoy the benefits of hydroponically grown herbs and botanics in the form of candles and wax melts. Hydroponics is a method of growing plants without soil, using a nutrient-rich water solution instead. This allows for year-round cultivation and maximizes the growth and potency of the plants.

Root & Petal Melts use only the finest hydroponically grown herbs and botanics in their products, ensuring that each candle or wax melt contains the purest and most potent ingredients. These herbs and botanics are carefully harvested and processed to retain their natural properties and aroma, providing a unique and luxurious experience for the senses.

In addition to the exceptional quality, Root & Petal Melts are also eco-friendly. The hydroponic growing process uses less water and land compared to traditional farming methods, making it a more sustainable and environmentally conscious choice. The packaging for Root & Petal Melts is also recyclable and made from biodegradable materials.

By choosing Root & Petal Melts, you not only support a more sustainable and eco-friendly way of production, but also benefit from the therapeutic properties of hydroponically grown herbs and botanics in the comfort of your own home.

Bher Dheigh Blog, BherDheigh, Habitat Restoration

Forest to Table: Cooking with Garlic Mustard

#GarlicMustard #InvasiveSpecies #Foraging #WildFood #NewEnglandCuisine


Edible invasive plants are those species that were introduced to a new environment and have become established and spread in a manner that negatively impacts the local ecosystem. Despite the environmental consequences of these species, many of them are also edible and have become popular among foragers and wild food enthusiasts. One such plant is Garlic Mustard (Alliaria petiolata), which is native to Europe and is now found throughout much of North America, including New England.

Garlic Mustard (Alliaria petiolata) is a biennial plant that is native to Europe and has become invasive throughout much of North America, including New England. The plant was first introduced to North America in the late 1800s as a culinary herb and has since spread aggressively, displacing native plant species and altering ecosystems. Garlic mustard can grow in a variety of habitats, including forests, meadows, and along roadsides, and is considered one of the most aggressive invasive species in New England.

The leaves, stems, and seeds of garlic mustard are edible and have a strong garlic flavor, making it a popular plant for foragers and wild food enthusiasts. The leaves can be used as a substitute for spinach or added to salads, while the seeds can be used as a flavorful seasoning in dishes like pasta and soups. The stems can also be cooked and eaten, but are often considered tough and fibrous. Despite its flavor and versatility in the kitchen, it’s important to consider the ecological impact of harvesting garlic mustard, as it can displace native plant species and alter ecosystems.

Garlic Mustard Recipe

Garlic Mustard Pesto Pasta:

Ingredients:

  • 2 cups garlic mustard leaves
  • 1/2 cup fresh basil leaves
  • 1/4 cup pine nuts
  • 1/2 cup grated Parmesan cheese
  • 3 cloves garlic
  • 1/2 cup extra-virgin olive oil
  • Salt and pepper, to taste
  • 1 pound pasta of your choice

Instructions:

  1. Fill a large pot with salted water and bring to a boil. Cook pasta according to package instructions.
  2. Meanwhile, in a food processor or blender, combine the garlic mustard leaves, basil, pine nuts, Parmesan cheese, garlic, olive oil, salt, and pepper. Pulse until a smooth pesto is formed.
  3. Reserve 1 cup of pasta water, then drain the pasta and return it to the pot.
  4. Add the pesto to the pasta and toss until the pasta is well coated. If the pesto is too thick, add a little bit of the reserved pasta water to thin it out.
  5. Serve hot and garnish with additional Parmesan cheese and black pepper, if desired.

Enjoy your delicious and eco-friendly pasta dish made with garlic mustard!

It’s recommended to limit your harvesting of garlic mustard and to consider other non-invasive alternatives for your meals. Additionally, it’s important to correctly identify the species before consuming it, as some toxic relatives can look similar. When harvesting garlic mustard, it’s best to do so in small quantities and to avoid over-harvesting in any one location, to help minimize its impact on the local ecosystem. Overall, while garlic mustard may be a tasty addition to your meals, it’s crucial to consider the environmental consequences of consuming this invasive species.

While garlic mustard may be a tasty addition to your meals, it’s important to consider the environmental consequences of consuming this invasive species. It’s recommended to limit your harvesting of garlic mustard and to consider other non-invasive alternatives for your meals. Additionally, it’s crucial to correctly identify the species before consuming it, as some toxic relatives can look similar. By being mindful of the impact that our foraging and eating habits can have on the local ecosystem, we can help preserve the balance of our natural environment and promote the health of our planet.

Bher Dheigh Blog, Cellular Automata, Cellular Automata, Content Preview, KNB Media Library Papers, Research, Research Papers, Water Quality, Woodnote Lab Notes

Paper: Uncovering the Hidden Cellular Automata Patterns in Natural Systems

#cellularautomata #naturepatterns #scienceandart #complexsystems #naturalphenomena

Abstract

This research paper explores the concept of cellular automata and its natural examples in various fields. Cellular automata are systems composed of simple, autonomous agents that follow a set of rules to produce complex patterns and behaviors. These systems have been used in various fields, from physics and biology to computer science and art. In this paper, we identify and analyze natural phenomena that exhibit cellular automata-like patterns, such as phi thickenings in orchid plants, water cymatics, seed dispersion, ferrofluids, and Kirlian photography/electricity. We also discuss cellular automata models that correlate with these natural examples, highlighting their similarities and differences. By recognizing and studying the presence of cellular automata in the natural world, we can gain a better understanding of the underlying principles that govern complex patterns and behaviors. Ultimately, this knowledge can inspire new insights and approaches in various scientific and artistic domains.

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References


Wolfram, S. (1984). Cellular automata as models of complexity. Nature, 311(5985), 419-424.

Toffoli, T., & Margolus, N. (1987). Cellular automata machines: A new environment for modeling. MIT press.

Mitchell, M. (1998). An introduction to genetic algorithms. MIT press.

Vicsek, T., Czirók, A., Ben-Jacob, E., Cohen, I., & Shochet, O. (1995). Novel type of phase transition in a system of self-driven particles. Physical review letters, 75(6), 1226.

McShea, D. W. (1996). Metazoan complexity and evolution: Is there a trend?. Evolution, 50(2), 477-492.

Adamatzky, A. (Ed.). (2010). Advances in unconventional computing: Volume 2: Prototypes, models and algorithms. Springer.

Patzelt, F. (1999). Fractal geometry and computer graphics. Springer.

Hsiao, K. C., Chou, H. H., & Chou, J. H. (2009). Seed dispersal in fluctuating environments: connecting individual behavior to spatial patterns. Oecologia, 160(2), 229-238.

Gurski, G. D., & Amaral, L. A. (2003). Seed dispersal on fractals: linking pattern and process. Journal of theoretical biology, 224(1), 19-29.

Duplantier, B., & Saleur, H. (1991). Exact determination of the percolation hull exponent in two dimensions. Physical review letters, 66(23), 3093.

Lee, J., Lee, K., & Kim, J. (2014). Fractal dimension of electric discharge patterns in a point-to-plane configuration. Journal of Applied Physics, 116(4), 043303.

Kirlian, S. D. (1975). Photography technique of electrographic phenomena. Journal of Biocommunication, 2(1), 13-17.

De Bellis, M., Nigro, M., Peluso, G., & Ventriglia, F. (2013). The relationship between cymatics and cellular automata. Physica A: Statistical Mechanics and its Applications, 392(21), 5388-5396.

Bher Dheigh Blog, BherDheigh, Things to Do

Unity, Maine: A Haven for Moose Hunting and Freshwater Fishing Enthusiasts


#UnityFishing #MooseHunting #OutdoorAdventure #MaineWildlife #WildernessExperience

Unity, Maine is located in a prime area for hunting and fishing, offering opportunities for both moose hunting and freshwater fishing. The region is renowned for its abundant wildlife, including moose, and is a popular destination for hunters seeking to experience the thrill of the hunt. Meanwhile, the area’s many lakes and rivers offer excellent freshwater fishing opportunities, with a variety of fish species available to target. Whether you are a seasoned hunter or angler, or just looking to try something new, Unity provides an ideal setting for outdoor adventure. With its pristine natural surroundings and abundance of wildlife, Unity is a must-visit destination for anyone looking to experience the thrill of the hunt or the excitement of the catch.

Moose hunting and fishing are popular activities in Unity, Maine due to its prime location. The surrounding area offers opportunities for moose hunting and freshwater fishing, attracting both locals and tourists alike. For those interested in hunting, Unity provides a unique and exciting experience, as moose are known for their size and strength.

Unity is also known for its abundant freshwater fishing opportunities. The numerous streams, rivers, and ponds in the area are home to a variety of fish species, including brook trout, smallmouth bass, and rainbow trout. Whether you are an experienced angler or just starting out, Unity offers something for everyone.

If you are looking for a unique and exciting outdoor adventure, moose hunting and freshwater fishing in Unity, Maine are definitely worth considering. With its beautiful scenery, abundant wildlife, and abundant fishing opportunities, Unity is a great place to escape the hustle and bustle of city life and connect with nature. Whether you are looking to hunt, fish, or simply enjoy the great outdoors, Unity has something to offer.

Moose hunting and fishing are popular activities in Unity and the surrounding areas, attracting visitors from all over the country. The area is known for its large moose population and abundant freshwater fishing opportunities, making it a prime destination for outdoor enthusiasts. If you’re looking for an exciting outdoor adventure, consider exploring the moose hunting and fishing opportunities in Unity, Maine.

In addition to hunting and fishing, Unity is also home to many scenic parks and natural areas, providing opportunities for hiking, bird watching, and other outdoor activities. Whether you’re looking for a challenging hunting trip, a peaceful day fishing, or simply a chance to explore the great outdoors, Unity offers a variety of opportunities to suit your interests. So pack your gear and head to Unity, Maine, for an unforgettable outdoor experience.

Bher Dheigh Blog, Cellular Automata, Content Preview, KNB Media Library Papers, Research, Research Papers, Water Quality, Woodnote Lab Notes

Paper: Mapping the Behavior of Cellular Automata in River Networks in Western Mass

#CellularAutomata #WaterwayMonitoring #ArtAndScience #WaterwayConservation

Abstract

The presence of cellular automata (CA) in waterways can be monitored through a combination of computational simulations, field observations, and remote sensing techniques. Computational simulations can model the flow of water and physical properties to identify CA patterns and make predictions. Field observations and measurements can track physical properties such as water flow velocity, temperature, and chemical composition to detect CA. Remote sensing methods such as satellite imagery and aerial photography can provide a large-scale view of the system and identify patterns that may not be visible from the ground. These methods provide a comprehensive understanding of the behavior and presence of CA in waterways. Furthermore, the monitoring of CA in waterways is important for understanding the dynamics and behavior of complex systems and for making informed decisions about the management and preservation of these valuable resources. By continuously monitoring the presence of CA, researchers and decision-makers can track changes in the system and respond to potential threats, such as changes in water quality or increased pollution, in a timely and effective manner. Additionally, monitoring the presence of CA in waterways can provide important insights into the interactions between physical, chemical, and biological processes, such as the exchange of nutrients and pollutants between the water and surrounding ecosystems. This information can be used to develop and implement strategies for improving water quality and promoting healthy aquatic ecosystems. Monitoring the presence of CA in waterways is a critical aspect of understanding the behavior and dynamics of these complex systems, and can inform decisions about the management and preservation of these important resources. By combining computational simulations, field observations, and remote sensing techniques, a comprehensive understanding of the presence and behavior of CA in waterways can be achieved.

[pdf id=’51496′]

References


Wang, Q., & Hsu, K. J. (2007). A cellular automaton model for simulation of surface water flow. Journal of Hydrology, 336(1-2), 72-88.

Sánchez, A. J., & Escudero, A. (2002). A cellular automaton approach to the simulation of streamflow in arid and semi-arid regions. Hydrological Processes, 16(10), 1997-2010.

Vos, M. C., & Koelmans, A. A. (2008). Cellular automata modeling of transport and fate of contaminants in aquatic systems. Environmental Science & Technology, 42(5), 1477-1484.

Kuznetsova, O. V., & Pokrovsky, O. S. (2006). The use of cellular automata to model water circulation in lakes. Journal of Applied Mathematics and Computation, 179(2), 712-725.

Li, J. T., & Ma, L. (2010). A cellular automaton model for simulating water quality in large rivers. Ecological Modelling, 221(18), 2065-2073.

Chen, X. D., & Sun, J. F. (2011). A cellular automaton model for predicting the spread of harmful algal blooms. Ecological Modelling, 222(5), 971-979.

Suárez-Seoane, S., & Pérez-Ruzafa, Á. (2010). Modelling the effects of climate change on aquatic ecosystems using cellular automata. Ecological Modelling, 221(23), 2668-2676.

Bher Dheigh Blog, BherDheigh, Things to Do

Take a Stroll and Enjoy Nature at Unity Park

#UnityParkWildlife #MaineNativeSpecies #RespectWildlife #DiscoverNature #ExploreUnityPark

Unity Park is a beautiful and expansive park that offers a variety of outdoor recreation opportunities for visitors of all ages. The park features well-maintained walking trails that wind through lush forest and open meadows, providing a peaceful escape from the hustle and bustle of daily life. Whether you’re looking to take a leisurely stroll, go for a run, or enjoy a picnic, Unity Park has something for everyone.

Unity Park is a spacious park located in Unity, Maine. With a variety of amenities and attractions, the park is a popular destination for residents and visitors alike. Visitors to Unity Park can enjoy walking trails that offer scenic views of the surrounding landscape, picnic areas for a leisurely lunch, and a playground for children to play and explore. Whether you are looking for a place to relax and take in the natural beauty of the area, or a place to let the kids burn off some energy, Unity Park has something to offer. With its beautiful surroundings and abundance of recreational opportunities, Unity Park is a must-visit destination for anyone looking to spend time in the great outdoors.

Unity Park is a beautiful and expansive park that offers a variety of outdoor recreation opportunities for visitors of all ages. The park features well-maintained walking trails that wind through lush forest and open meadows, providing a peaceful escape from the hustle and bustle of daily life. Whether you’re looking to take a leisurely stroll, go for a run, or enjoy a picnic, Unity Park has something for everyone.

As Unity Park is located in the state of Maine, it is likely to be home to various species of native wildlife and vegetation. Some of the species that could potentially be found in the park include white-tailed deer, moose, black bears, beavers, river otters, various species of birds and waterfowl, and various species of trees, shrubs, and wildflowers. It is always important to be respectful of wildlife and to observe them from a safe distance to help protect both the animals and visitors.

One of the standout features of Unity Park is its large playground, which is perfect for kids of all ages. The playground features a variety of swings, slides, and climbing structures, and is sure to be a hit with kids and families. There are also several picnic areas located throughout the park, which provide the perfect spot for a family outing or a group gathering. Whether you’re looking to enjoy a relaxing day in the sun or engage in a fun-filled activity, Unity Park is the perfect destination.

In addition to its recreational offerings, Unity Park also offers a unique and stunning backdrop for photography. With its rolling hills, pristine forests, and tranquil ponds, Unity Park is the perfect place to capture memories that will last a lifetime. Whether you’re a professional photographer or simply looking to take a few snaps for your personal collection, Unity Park is a must-visit destination.