● Slide 2 (Brief introduction of the subject to start the conversation)
Recent findings of dark matter and dark energy have the potential to
fundamentally alter our knowledge of the universe by opposing and challenging
the Lambda Cold Dark Matter (ΛCDM) model, which is the predominant
cosmological theory. About 95% of the mass-energy content of the universe is
made up of dark energy, which promotes the expansion of the cosmos, and dark
matter, which affects the gravitational makeup of galaxies. Despite their
importance, these events are still mostly unknown, and further research into
them could significantly impact our knowledge of the universe's beginnings and
future development.
● Slide 3-4 (Content, here goes the material that will answer the research
question)
It's possible that a minor electrical charge exists in a tiny percentage of dark
matter particles. Harvard University researchers Julian Munoz and Avi Loeb
investigated this idea, which may help explain differences in Experiment to
Detect the Global EoR Signature collaboration results. The discovery of an
unexpected radio signature from the earliest generation of stars by the EDGES
team raises the possibility that dark matter and normal matter are interacting in
previously unidentified ways. If verified, this theory may provide a fresh
perspective on the role of dark matter in the early cosmos.
Recent discoveries of dark matter have a great impact on the mainstream cosmological
model by revealing that the vast majority of the mass and energy of the cosmos is made
up of unexplained materials that are invisible to the naked eye, compelling researchers
to reconsider how gravity and the development of cosmic structures work. With this we
are continuously learning more and more about dark matter. By offering high-precision
data on important cosmic events, additional space missions could significantly improve
our comprehension of the universe's beginnings and evolution. However, it is impossible
to predict how many more trips will further our understanding of the universe's
beginnings and development.
● Slide 5 (Conclusions, it briefly summarizes the findings, includes what you
learned, what are your conclusions)
The only way to gain knowledge on dark matter is to do research. Learning that
Your presentation must provide all references used in your research and images at the
footnotes of each slide. Please DO NOT include a final slide with references. You want to use
the 5 minutes in your content, and you will help your reviewers evaluate the scientific rigor if you
give the reference of the used content.
References
https://news.mit.edu/2024/study-early-dark-energy-could-resolve-cosmologys-two-biggest-
puzzles-0913
Recent findings of dark matter and dark energy have the potential to
fundamentally alter our knowledge of the universe by opposing and challenging
the Lambda Cold Dark Matter (ΛCDM) model, which is the predominant
cosmological theory. About 95% of the mass-energy content of the universe is
made up of dark energy, which promotes the expansion of the cosmos, and dark
matter, which affects the gravitational makeup of galaxies. Despite their
importance, these events are still mostly unknown, and further research into
them could significantly impact our knowledge of the universe's beginnings and
future development.
● Slide 3-4 (Content, here goes the material that will answer the research
question)
It's possible that a minor electrical charge exists in a tiny percentage of dark
matter particles. Harvard University researchers Julian Munoz and Avi Loeb
investigated this idea, which may help explain differences in Experiment to
Detect the Global EoR Signature collaboration results. The discovery of an
unexpected radio signature from the earliest generation of stars by the EDGES
team raises the possibility that dark matter and normal matter are interacting in
previously unidentified ways. If verified, this theory may provide a fresh
perspective on the role of dark matter in the early cosmos.
Recent discoveries of dark matter have a great impact on the mainstream cosmological
model by revealing that the vast majority of the mass and energy of the cosmos is made
up of unexplained materials that are invisible to the naked eye, compelling researchers
to reconsider how gravity and the development of cosmic structures work. With this we
are continuously learning more and more about dark matter. By offering high-precision
data on important cosmic events, additional space missions could significantly improve
our comprehension of the universe's beginnings and evolution. However, it is impossible
to predict how many more trips will further our understanding of the universe's
beginnings and development.
● Slide 5 (Conclusions, it briefly summarizes the findings, includes what you
learned, what are your conclusions)
The only way to gain knowledge on dark matter is to do research. Learning that
Your presentation must provide all references used in your research and images at the
footnotes of each slide. Please DO NOT include a final slide with references. You want to use
the 5 minutes in your content, and you will help your reviewers evaluate the scientific rigor if you
give the reference of the used content.
References
https://news.mit.edu/2024/study-early-dark-energy-could-resolve-cosmologys-two-biggest-
puzzles-0913
