Introduction to electrodynamics with applications to physical problems. Topics include electrostatics, magnetostatics, Maxwell’s equations, electromagnetic forces, electromagnetic waves, radiation from accelerating charges and currents, and special relativity.
Introduction to electrodynamics with applications to physical problems. Topics include electrostatics, magnetostatics, Maxwell’s equations, electromagnetic forces, electromagnetic waves, radiation from accelerating charges and currents, and special relativity.
This course provides a basic understanding of computer modeling in physics. Topics include basics of python programming language; scientific plotting; numerical evaluation of integrals; numerical solution of ordinary and partial differential equations; visual programming; basics of high performance and parallel computing; basics of graphics processing unit programming.
This course provides a basic understanding of computer modeling in physics. Topics include basics of python programming language; scientific plotting; numerical evaluation of integrals; numerical solution of ordinary and partial differential equations; visual programming; basics of high performance and parallel computing; basics of graphics processing unit programming.
This course provides a basic understanding of computer modeling in physics. Topics include basics of python programming language; scientific plotting; numerical evaluation of integrals; numerical solution of ordinary and partial differential equations; visual programming; basics of high performance and parallel computing; basics of graphics processing unit programming.
This course provides a basic understanding of computer modeling in physics. Topics include basics of python programming language; scientific plotting; numerical evaluation of integrals; numerical solution of ordinary and partial differential equations; visual programming; basics of high performance and parallel computing; basics of graphics processing unit programming.
The course PHYS 3100 offers a study of classical mechanics from a more advanced perspective than freshman physics, with particular emphasis on Lagrangian and Hamiltonian formalisms. Topics include a review of Newtonian mechanics and the principles of conservation of energy and momentum, as well as the study of the calculus of variations, Lagrange’ s equations, two bodies central force problems, mechanics in non-inertial frames, rigid bodies, Hamiltonian mechanics, collision theory.
The course PHYS 3100 offers a study of classical mechanics from a more advanced perspective than freshman physics, with particular emphasis on Lagrangian and Hamiltonian formalisms. Topics include a review of Newtonian mechanics and the principles of conservation of energy and momentum, as well as the study of the calculus of variations, Lagrange’ s equations, two bodies central force problems, mechanics in non-inertial frames, rigid bodies, Hamiltonian mechanics, collision theory.
This course introduces the foundations of discrete mathematics as they apply to computer science, focusing on providing a solid theoretical foundation for further work. Topics include functions,relations, sets, simple proof techniques, Boolean algebra, propositional logic, elementary number theory, writing, analyzing and testing algorithms.
This course introduces the foundations of discrete mathematics as they apply to computer science, focusing on providing a solid theoretical foundation for further work. Topics include functions,relations, sets, simple proof techniques, Boolean algebra, propositional logic, elementary number theory, writing, analyzing and testing algorithms.
Struggling a bit with your homework or want to be sure you understand an idea well? Here are videos you can watch, sorted by subject, to help you on your journey. Enjoy!
Avatar image and site header created at logomakr.com
Struggling a bit with your homework or want to be sure you understand an idea well? Here are videos you can watch, sorted by subject, to help you on your journey. Enjoy!
Avatar image and site header created at logomakr.com
Python is a popular programming language that emphasizes readability. In this four-day workshop, we will cover the basics in python and spend time on interesting applications in mathematics, biology, statistics, and more.
Python is a popular programming language that emphasizes readability. In this four-day workshop, we will cover the basics in python and spend time on interesting applications in mathematics, biology, statistics, and more.
We welcome the CityTech community to learn and grow in the areas of electrical and telecommunications technology. Every semester we provide a series of seminars with speakers that present the latest research. In addition, various workshops are also provided.
We welcome the CityTech community to learn and grow in the areas of electrical and telecommunications technology. Every semester we provide a series of seminars with speakers that present the latest research. In addition, various workshops are also provided.
Girls Who Code Club at City Tech is affiliated with Girls Who Code national non-profit organization working to close the gender gap in technology. Our programs educate and inspire girls with the computing skills they’ll need to pursue 21st century career opportunities.
Girls Who Code Club at City Tech is affiliated with Girls Who Code national non-profit organization working to close the gender gap in technology. Our programs educate and inspire girls with the computing skills they’ll need to pursue 21st century career opportunities.
Research Lab Website:
openlab.citytech.cuny.edu/eesl/
Lab Profile (this site):
openlab.citytech.cuny.edu/groups/energy-and-environmental-simulation-laboratory/
Energy and Environmental Simulation Laboratory (EES Lab) is Professor Masato R. Nakamura’s research group based on Mechanical Engineering Department in New York City College of Technology (City Tech), The City University of New York (CUNY). This laboratory is a professional research unit, not a student club, but opens to everyone who would like to conduct research on energy, environmental engineering (including ecodesign), and computing for sustainability. Also, it’s for people who wish to obtain Research and Development (R&D) skills required in a high-level position in the industry and academia.
Excellent students can be recommended to become research assistants in order to publish a paper as a co-author, and have an oral presentation in an international conference. These research activities make students’ resume strong (R&D skills, publication, professional presentation) and will be a huge advantage for finding an engineering position or being accepted to graduate schools for Master or doctoral degree.
If you are interested in joining EES Lab, please send Professor Masato R. Nakamura (Tel: 718-260-5532, mnakamura@citytech.cuny.edu ) your resume and answers of following questions:
1) What kinds of research fields are you interested in?
2) How many hours per week can you spend for conducting research?
3) Describe your skills/knowledge of math, physics, computers, and experimental work (lab hands-on skills).
4) After finishing your degree program, what kind of industry or graduate school program you’d like to go?
Research Lab Website:
openlab.citytech.cuny.edu/eesl/
Lab Profile (this site):
openlab.citytech.cuny.edu/groups/energy-and-environmental-simulation-laboratory/
Energy and Environmental Simulation Laboratory (EES Lab) is Professor Masato R. Nakamura’s research group based on Mechanical Engineering Department in New York City College of Technology (City Tech), The City University of New York (CUNY). This laboratory is a professional research unit, not a student club, but opens to everyone who would like to conduct research on energy, environmental engineering (including ecodesign), and computing for sustainability. Also, it’s for people who wish to obtain Research and Development (R&D) skills required in a high-level position in the industry and academia.
Excellent students can be recommended to become research assistants in order to publish a paper as a co-author, and have an oral presentation in an international conference. These research activities make students’ resume strong (R&D skills, publication, professional presentation) and will be a huge advantage for finding an engineering position or being accepted to graduate schools for Master or doctoral degree.
If you are interested in joining EES Lab, please send Professor Masato R. Nakamura (Tel: 718-260-5532, mnakamura@citytech.cuny.edu ) your resume and answers of following questions:
1) What kinds of research fields are you interested in?
2) How many hours per week can you spend for conducting research?
3) Describe your skills/knowledge of math, physics, computers, and experimental work (lab hands-on skills).
4) After finishing your degree program, what kind of industry or graduate school program you’d like to go?
NYCCT Chapter of ACM: Association for Computing Machinery
and
NYCCT Chapter of ACM-W: Association for Computing Machinery Women’s Chapter
Supported by the Department of Education MSEIP grant # P120A150063
NYCCT Chapter of ACM: Association for Computing Machinery
and
NYCCT Chapter of ACM-W: Association for Computing Machinery Women’s Chapter
Supported by the Department of Education MSEIP grant # P120A150063