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Introduction
Energy equals mass times the velocity of light squared
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$$E=mc^2$$ |
Let's cite! The Einstein's journal paper
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reference | @article{einstein, author = "Albert Einstein", title = "{Zur Elektrodynamik bewegter K{\"o}rper}. ({German}) [{On} the electrodynamics of moving bodies]", journal = "Annalen der Physik", volume = "322", number = "10", pages = "891--921", year = "1905", DOI = "http://dx.doi.org/10.1002/andp.19053221004", keywords = "physics" } |
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and the Dirac's book Bibtex reference |
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reference | @book{dirac, title={The Principles of Quantum Mechanics}, author={Paul Adrien Maurice Dirac}, isbn={9780198520115}, series={International series of monographs on physics}, year={1981}, publisher={Clarendon Press}, keywords = {physics} } |
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are physics related items. Conclusion
Mass and energy have equivalence.
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Students are required to submit annual review materials about the previous academic year each Fall (e.g., annual reviews for AY 22-23 are due in Fall 2023). Students are also required to submit an individual development plan(IDP) for the upcoming academic year in the fall (e.g., IDPs for the AY 22-23 will be due Fall 2022). Students will receive notification in Mid-August to begin preparing these materials. The due date for these materials is September 30 or the next business day.
Students entering the program are encouraged to review the visuals below for a general timeline for when milestones are completed in the program by military and non-military students.
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