FUSION II
FUSION II | 72" x 72" x 1.5" acrylic, acrylic ink, pencil and sand on gallery profile splined canvas.
By artist collaborative SEEKUS. An exploration of the intersection of the analog and the digital space. Text was generated by a large language model from prompts submitted by individuals.
Inspired by Georgia O’Keeffe’s Sky Above Clouds IV (1965). Graffiti background contributed by Sam Lopata. Sand from Malibu and Venice Beach.
Here, artificial intelligence asked, "What is the process of fusion as relates to climate change?"
The physical process of melting glaciers involves the transformation of solid glacial ice into liquid water due to an increase in temperature.
Fusion, in the context of melting ice caps, typically refers to a different process than nuclear fusion. Instead, it is used to describe the phase transition from a solid to a liquid, as in the case of ice melting into water. The term fusion is often used interchangeably with melting when discussing the transition of a substance from a solid state to a liquid state. In the specific case of ice caps, the process of fusion occurs when the temperature of the ice rises above its melting point. For pure ice, the melting point is 0 degrees Celsius under normal atmospheric pressure.
As the temperature increases, the ice absorbs heat energy, allowing the ice crystals to gain enough energy to break their bonds and transition into the liquid water phase.
It’s important to note that the term fusion is not associated with nuclear fusion, which is a process where atomic nuclei combine to release a large amount of energy. Nuclear fusion is a high energy process that occurs in stars, including the sun, and a potential future energy source for humanity. However, it is not directly related to the melting of ice caps on earth.
In the context of climate change and the melting of ice caps and glaciers, the term melting is more commonly used to describe the process of ice transitioning into water due to increased temperatures, often associated with global warming and changes in atmospheric conditions. The melting of ice caps contributes to rising sea levels, which can have significant impacts on ecosystems, weather patterns, and coastal communities.
SEEKUS is a collaborative effort between me and my brother, Sam Lopata.
Due to the size of this piece, please select GROUND for shipping at checkout (unless you prefer studio pick-up.) I will quote and coordinate shipping directly with you after purchase. Additional shipping costs will be incurred.
FUSION II | 72" x 72" x 1.5" acrylic, acrylic ink, pencil and sand on gallery profile splined canvas.
By artist collaborative SEEKUS. An exploration of the intersection of the analog and the digital space. Text was generated by a large language model from prompts submitted by individuals.
Inspired by Georgia O’Keeffe’s Sky Above Clouds IV (1965). Graffiti background contributed by Sam Lopata. Sand from Malibu and Venice Beach.
Here, artificial intelligence asked, "What is the process of fusion as relates to climate change?"
The physical process of melting glaciers involves the transformation of solid glacial ice into liquid water due to an increase in temperature.
Fusion, in the context of melting ice caps, typically refers to a different process than nuclear fusion. Instead, it is used to describe the phase transition from a solid to a liquid, as in the case of ice melting into water. The term fusion is often used interchangeably with melting when discussing the transition of a substance from a solid state to a liquid state. In the specific case of ice caps, the process of fusion occurs when the temperature of the ice rises above its melting point. For pure ice, the melting point is 0 degrees Celsius under normal atmospheric pressure.
As the temperature increases, the ice absorbs heat energy, allowing the ice crystals to gain enough energy to break their bonds and transition into the liquid water phase.
It’s important to note that the term fusion is not associated with nuclear fusion, which is a process where atomic nuclei combine to release a large amount of energy. Nuclear fusion is a high energy process that occurs in stars, including the sun, and a potential future energy source for humanity. However, it is not directly related to the melting of ice caps on earth.
In the context of climate change and the melting of ice caps and glaciers, the term melting is more commonly used to describe the process of ice transitioning into water due to increased temperatures, often associated with global warming and changes in atmospheric conditions. The melting of ice caps contributes to rising sea levels, which can have significant impacts on ecosystems, weather patterns, and coastal communities.
SEEKUS is a collaborative effort between me and my brother, Sam Lopata.
Due to the size of this piece, please select GROUND for shipping at checkout (unless you prefer studio pick-up.) I will quote and coordinate shipping directly with you after purchase. Additional shipping costs will be incurred.
FUSION II | 72" x 72" x 1.5" acrylic, acrylic ink, pencil and sand on gallery profile splined canvas.
By artist collaborative SEEKUS. An exploration of the intersection of the analog and the digital space. Text was generated by a large language model from prompts submitted by individuals.
Inspired by Georgia O’Keeffe’s Sky Above Clouds IV (1965). Graffiti background contributed by Sam Lopata. Sand from Malibu and Venice Beach.
Here, artificial intelligence asked, "What is the process of fusion as relates to climate change?"
The physical process of melting glaciers involves the transformation of solid glacial ice into liquid water due to an increase in temperature.
Fusion, in the context of melting ice caps, typically refers to a different process than nuclear fusion. Instead, it is used to describe the phase transition from a solid to a liquid, as in the case of ice melting into water. The term fusion is often used interchangeably with melting when discussing the transition of a substance from a solid state to a liquid state. In the specific case of ice caps, the process of fusion occurs when the temperature of the ice rises above its melting point. For pure ice, the melting point is 0 degrees Celsius under normal atmospheric pressure.
As the temperature increases, the ice absorbs heat energy, allowing the ice crystals to gain enough energy to break their bonds and transition into the liquid water phase.
It’s important to note that the term fusion is not associated with nuclear fusion, which is a process where atomic nuclei combine to release a large amount of energy. Nuclear fusion is a high energy process that occurs in stars, including the sun, and a potential future energy source for humanity. However, it is not directly related to the melting of ice caps on earth.
In the context of climate change and the melting of ice caps and glaciers, the term melting is more commonly used to describe the process of ice transitioning into water due to increased temperatures, often associated with global warming and changes in atmospheric conditions. The melting of ice caps contributes to rising sea levels, which can have significant impacts on ecosystems, weather patterns, and coastal communities.
SEEKUS is a collaborative effort between me and my brother, Sam Lopata.
Due to the size of this piece, please select GROUND for shipping at checkout (unless you prefer studio pick-up.) I will quote and coordinate shipping directly with you after purchase. Additional shipping costs will be incurred.