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Inventing an entirely new, cheap raw material for nuclear transmutation of chemical elements is a complex and highly specialized scientific endeavor that requires extensive knowledge in nuclear physics, chemistry, and materials science. It typically involves advanced research, experimentation, and collaboration with experts in the field. While I can provide some general guidance, it's important to note that inventing such a material is a challenging task that may require years of dedicated study and resources.

Here are a few steps you can consider as a starting point:

  1. Gain a solid understanding: Educate yourself on the principles of nuclear physics, chemistry, and transmutation processes. This will involve studying relevant scientific literature, textbooks, and academic resources to grasp the concepts and techniques involved.

  2. Research existing materials: Investigate the currently known materials and techniques used for nuclear transmutation. Understand their limitations, costs, and potential areas for improvement. This knowledge will help you identify gaps in the field and potential avenues for innovation.

  3. Collaborate with experts: Connect with scientists, researchers, and experts in the field of nuclear physics and materials science. Seek guidance and collaborate with individuals or teams who have expertise in transmutation processes. Their insights and expertise can provide valuable guidance throughout your research and development journey.

  4. Identify novel approaches: Explore innovative concepts and ideas that could lead to the development of a new, cheap raw material for nuclear transmutation. This might involve considering alternative materials, exploring new reaction pathways, or novel methods of controlling and directing nuclear reactions.

  5. Conduct experiments and simulations: Utilize experimental techniques and computer simulations to test your hypotheses and theories. This may involve designing experiments, acquiring or creating necessary equipment, and analyzing data. Computer simulations can help model and predict the behavior of various materials under different conditions.

  6. Iterate and refine: Continuously refine your approach based on the results obtained from experiments and simulations. Learn from any setbacks or challenges encountered along the way and modify your methodology accordingly.

  7. Seek funding and resources: Developing a new raw material for nuclear transmutation will likely require financial resources and access to specialized facilities. Look for funding opportunities, grants, or research programs that support innovative scientific research in your area of interest.

Remember, the process of inventing a new raw material for nuclear transmutation is highly complex and demanding. It requires a deep understanding of the underlying scientific principles, access to specialized resources, and collaboration with experts in the field. It's essential to approach this task with patience, dedication, and a willingness to learn from both successes and failures.

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