Welcome to Our Publications Archive!
Explore groundbreaking research and collaborative projects by our Physics Club.
2025
Samir, Ahmed; Judah, Ahmed Moussa
A Students' Handbook to Thermodynamics Book
1st Edition, STEM October Physics Club, 2025.
@book{nokey,
title = {A Students' Handbook to Thermodynamics},
author = {Ahmed Samir and Ahmed Moussa Judah},
editor = {Seif Mohamed},
doi = {https://doi.org/10.5281/zenodo.14744017},
year = {2025},
date = {2025-01-27},
urldate = {2025-01-27},
publisher = {STEM October Physics Club},
edition = {1st Edition},
abstract = {This Thermodynamics Handbook is the product of the dedicated effort by the Publications Committee of the STEM October Physics Club. Catalyzed by the flaming energy of physics and education, this handbook has been crafted to serve as a concise and accessible resource for students and enthusiasts alike.
The development of this handbook is entirely non-profit. Its use or distribution will generate no revenue. Its sole purpose is to help the growth of its readers and to encourage a love for physics among learners.
We hope this handbook proves to be a valuable tool on your educational journey. As you explore its pages, may you feel the spark of thermodynamics and find inspiration to harness the power of physics with your minds heating up with curiosity and books ever at your side.},
keywords = {},
pubstate = {published},
tppubtype = {book}
}
This Thermodynamics Handbook is the product of the dedicated effort by the Publications Committee of the STEM October Physics Club. Catalyzed by the flaming energy of physics and education, this handbook has been crafted to serve as a concise and accessible resource for students and enthusiasts alike.
The development of this handbook is entirely non-profit. Its use or distribution will generate no revenue. Its sole purpose is to help the growth of its readers and to encourage a love for physics among learners.
We hope this handbook proves to be a valuable tool on your educational journey. As you explore its pages, may you feel the spark of thermodynamics and find inspiration to harness the power of physics with your minds heating up with curiosity and books ever at your side.
The development of this handbook is entirely non-profit. Its use or distribution will generate no revenue. Its sole purpose is to help the growth of its readers and to encourage a love for physics among learners.
We hope this handbook proves to be a valuable tool on your educational journey. As you explore its pages, may you feel the spark of thermodynamics and find inspiration to harness the power of physics with your minds heating up with curiosity and books ever at your side.
Hamouda, Belal; Hassan, Hazem; Mohammed, Mustafa; Mohamed, Seif; Fahmy, Abdulhakim; Hassan, Omar; Amir, Ahmed; Mamdouh, Ahmed; Abdelfattah, Aslam; Atef, Mohamed; Hossam, Mohamed; Khaled, Mohamed
A Students' Handbook to Mechanics Book
1st Edition, STEM October Physics Club, 2025.
@book{nokey,
title = {A Students' Handbook to Mechanics},
author = {Belal Hamouda and Hazem Hassan and Mustafa Mohammed and Seif Mohamed and Abdulhakim Fahmy and Omar Hassan and Ahmed Amir and Ahmed Mamdouh and Aslam Abdelfattah and Mohamed Atef and Mohamed Hossam and Mohamed Khaled},
editor = {Seif Mohamed},
doi = {https://doi.org/10.5281/zenodo.14750250},
year = {2025},
date = {2025-01-27},
urldate = {2025-01-27},
publisher = {STEM October Physics Club},
edition = {1st Edition},
abstract = {This Mechanics Handbook is the product of dedicated effort by the Publications Committee of the STEM October Physics Club. Driven by the field forces of physics and education, this handbook has been crafted to serve as a concise and accessible resource for students and enthusiasts alike.
The development of this handbook is entirely non-profit. Its use or distribution will generate no revenue. Its sole purpose is to help the growth of its readers and to encourage a love for physics among learners.
We hope this handbook proves to be a valuable tool on your educational journey. As you explore its pages, may you uncover the elegance of mechanics and find inspiration to explore the cosmos with your minds accelerating, momentum growing, and books ever at your side.
},
keywords = {},
pubstate = {published},
tppubtype = {book}
}
This Mechanics Handbook is the product of dedicated effort by the Publications Committee of the STEM October Physics Club. Driven by the field forces of physics and education, this handbook has been crafted to serve as a concise and accessible resource for students and enthusiasts alike.
The development of this handbook is entirely non-profit. Its use or distribution will generate no revenue. Its sole purpose is to help the growth of its readers and to encourage a love for physics among learners.
We hope this handbook proves to be a valuable tool on your educational journey. As you explore its pages, may you uncover the elegance of mechanics and find inspiration to explore the cosmos with your minds accelerating, momentum growing, and books ever at your side.
The development of this handbook is entirely non-profit. Its use or distribution will generate no revenue. Its sole purpose is to help the growth of its readers and to encourage a love for physics among learners.
We hope this handbook proves to be a valuable tool on your educational journey. As you explore its pages, may you uncover the elegance of mechanics and find inspiration to explore the cosmos with your minds accelerating, momentum growing, and books ever at your side.
2024
Fahmy, Abdulhakim; Mamdouh, Ahmed; Ahmed, Mohamed; Mohamed, Adam; ElKhatib, Ahmed; Mohamed, Eyad; Mohamed, Seif; Hassan, Omar
Proceedings of 2023 Physics Club's Final Project Proceedings
STEM October Physics Club, vol. 1, no. 1, 2024.
@proceedings{compass1,
title = {Proceedings of 2023 Physics Club's Final Project},
author = {Abdulhakim Fahmy and Ahmed Mamdouh and Mohamed Ahmed and Adam Mohamed and Ahmed ElKhatib and Eyad Mohamed and Seif Mohamed and Omar Hassan},
editor = {Seif Mohamed and Adam Mohamed},
url = {https://doi.org/10.5281/zenodo.14271581},
doi = {10.5281/zenodo.14271581},
year = {2024},
date = {2024-12-04},
urldate = {2024-12-04},
volume = {1},
number = {1},
issue = {1},
pages = {44},
publisher = {STEM October Physics Club},
edition = {1},
abstract = {This proceedings showcases projects from the STEM October Physics Club, demonstrating how computational tools bridge theory and application in physics and engineering. Through intensive training, participants created innovative simulations, such as active suspension systems and nonlinear RLC circuits. Combining theoretical physics with computational problem-solving, this volume highlights the role of computational science in scientific discovery and reflects the power of collaboration and innovation in physics education.},
keywords = {},
pubstate = {published},
tppubtype = {proceedings}
}
This proceedings showcases projects from the STEM October Physics Club, demonstrating how computational tools bridge theory and application in physics and engineering. Through intensive training, participants created innovative simulations, such as active suspension systems and nonlinear RLC circuits. Combining theoretical physics with computational problem-solving, this volume highlights the role of computational science in scientific discovery and reflects the power of collaboration and innovation in physics education.