This introductory module sets the stage for the exploration of black holes and the underlying physics of the universe. Participants will:
The focus will be on fostering a collaborative learning environment that encourages curiosity and critical thinking.
This introductory module sets the stage for the exploration of black holes and the underlying physics of the universe. Participants will:
The focus will be on fostering a collaborative learning environment that encourages curiosity and critical thinking.
This module tackles fundamental questions about the universe that often provoke fear or skepticism. Students will:
Ultimately, students will gain confidence in addressing complex astrophysical concepts while laying the groundwork for future modules.
In this module, students will delve into Einstein's Field Equations, the cornerstone of general relativity. Key topics include:
Through this study, participants will gain a solid foundation in the mathematical frameworks that govern gravitational interactions.
This module focuses on X-ray binaries, an essential aspect of black hole research. Participants will:
Discussions will cover technological advancements in detection and the implications for understanding black hole formation and properties.
This module continues the exploration of X-ray binaries, delving deeper into their role in astrophysical research. Students will:
By the end of this module, students will enhance their analytical skills and understanding of the complexities involved in studying black holes.
The final module addresses cosmic structure formation from the Big Bang to galaxies. Participants will:
This module emphasizes the interconnectedness of phenomena across the universe, culminating in a comprehensive understanding of cosmic evolution.