Discover of molecular force atraction

Abstract

Abstract This discovery is about molecular forces and electric conducted in many places and laboratories, I identify the presence of molecular forces and not electric forces and I show with an experiment. Keywords Molecular forces, electric, oil, water, cook oil, diesel oil, recipient, experiment, atomic, atoms Introduction First make this experiment comprove that don’t have electric current, but, have atomic current and you comprove this if you do the same. The experiment is simple and has already been tested in the laboratory. I did this experiment and comprove existence of molecular forces and don’t have electric forces when I made this experiment, you see the same results. Methods, materials and experiment First make this experiment to comprove that don’t have electric current, but, have atomic current. The experiment is simple and has already been tested in the laboratory, many places, many times: 1. Put diesel or cooking oil on one side until it freezes in a recipient; 2. Take water and heat it until the water boils and leave the water boiling; 3. Connect two cables of any material as if it were an electric circuit, without touching the cables so as not to short-circuit the experiment; 4. You can measure the voltage in the circuit; 5. You will see the oil atoms coming to water and the water atoms coming to oil. This in itself proves that there is no electric current, only atomic current and if you try to do this for another materials you reach the same and electric currents been made. Discussion Contextualização dos resultados: Inicie a discussão recapitulando brevemente os principais resultados obtidos na seção de resultados. Apresente o contexto teórico e conceitual relevante para ajudar os leitores a compreenderem a importância dos achados. Comparação com estudos anteriores: Discuta como seus resultados se comparam com os estudos anteriores, destacando semelhanças, diferenças e contradições. Explique as possíveis razões para as discrepâncias e forneça explicações baseadas na literatura existente. Análise e interpretação dos resultados: Analise e interprete os resultados em profundidade, destacando padrões, tendências ou relações observadas. Relacione os resultados aos objetivos do estudo e às hipóteses formuladas, discutindo se eles confirmam ou refutam as expectativas iniciais. Implicações e significância dos resultados: Discuta as implicações dos resultados para a área de estudo e sua relevância para o avanço do conhecimento científico.Explore possíveis aplicações práticas dos resultados e suas potenciais contribuições para a sociedade. The discussion section interprets the results and connects them to the study's hypothesis and prior research. Start by analyzing whether the results support or contradict the original hypothesis, explaining any biological or scientific relevance. Integrate your findings with previous studies to highlight patterns or differences and explore possible explanations for any unexpected results—proposing hypotheses that future research might test. Emphasize trends, even if statistically insignificant, if they offer interesting insights, but avoid overstating these. End with a concise summary of the main points and suggest realistic directions for future research without generic statements. While formatting a scientific research paper, remember to avoid redundancy with the Results section by not re-listing data, and keep the focus on interpretation rather than description. Conclusion The conclusion provides a brief but impactful summary of the study's main findings and their broader significance. Start by reiterating the key findings in a concise manner to remind readers of the study's core discoveries. Then, discuss the overall significance of these findings, explaining how they contribute to the field and why they matter. Avoid introducing new information here; instead, reinforce the main conclusions and leave the reader with a clear understanding of the study's value and implications. This section should succinctly encapsulate the essence of the research and its impact. Tables and Figures Tables and figures are vital parts of a scientific paper that visually present data and enhance comprehension. Use them when they convey information more clearly than words alone. Each table or figure should be a self-contained unit with a descriptive caption explaining its content so it can be understood without referencing the text. Cite each figure or table in the text, but avoid redundant explanations. Tables: Use for organized data comparisons. Figures: Choose graphs to illustrate relationships between variables. Captions: Briefly summarize what's displayed, avoiding detailed descriptions in the text. Preference: Whenever possible, opt for figures over tables, as they generally convey relationships more effectively. This approach ensures clarity and efficiency in data presentation. Acknowledgments The acknowledgments section offers a space to thank individuals or organizations who significantly contributed to the research but aren't listed as authors. This might include funding sources, mentors, technical assistants, or others who provided critical support. Keep acknowledgments brief but specific. For example, you might mention an organization that provided grant funding or a colleague who assisted with data analysis. It's a professional courtesy to recognize these contributions, and many journals expect such acknowledgment as part of academic transparency and integrity. References The references section in your scientific research paper format lists all sources cited within the paper, following a consistent citation style, such as APA, MLA, or Chicago. Essential details include: Guidson Zanetti de Aguiar 05/25/2025 Discover of molecular forces From electricity: First make this experiment comprove that don’t have electric current, but, have atomic current and you comprove this if you do the same. The experiment is simple and has already been tested in the laboratory: 1. Put diesel or cooking oil on one side until it freezes in a recipient; 2. Take water and heat it until the water boils and leave the water boiling and turn off this; 3. Connect two cables of any material as if it were an electric circuit, without touching the cables so as not to short-circuit the experiment; 4. You can measure the voltage in the circuit; 5. You will see the oil atoms coming to oil and the water atoms coming to water. This in itself proves that there is no electric current, only atomic current and if you try to do this for another materials you reach the same? This is possible because with the difference in temperature means that there are different levels of energy and that the side with more energy receives more atoms with less energy in order to balance the energies, which proves that temperature and electric field go together and that there is no electric current, but an atomic one. Too with this experiment is possible to understand that have a atomic force to attract and repel the atoms and because this, have a atomic current like this. And consider that nobody see the atom and have many theories talking about this is possible that theories are wrong.