You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
You must be logged in to perform this action.
- Author:
-
Andy Buffler
- Subject:
- Science and Technology
- Institution Name:
- University of Cape Town
- Collection:
-
University of Cape Town
- Grade Level:
- Post-secondary
- Abstract:
This physics course is for students who have not completed PHY1004W, to prepare them for PHY2014F and PHY2015S. VECTOR FIELDS IN PHYSICS: Vector calculus; div, grad, curl; line-, surface- and volume integrals; Gauss' Theorem; Stokes' Theorem; simple applications to fluid dynamics and electromagnetism STATISTICAL MODELLING OF RADIATION AND MATTER: Mathematical descriptions of solids, liquids and gases; entropy; temperature; the Boltzmann distribution; thermodynamics; statistical models of photons; statistical models in quantum mechanics, wave-particle duality. UCT PHY2009S
- Languages:
- English
- Material Type:
- Lecture Notes
- Media Format:
- Text/HTML
- Conditions of Use:
-
Creative Commons Attribution 2.5
No restrictions on your remixing, redistributing, or making derivative works.
Give credit to the author, as required.
Your remixing, redistributing, or making derivatives works comes with some
restrictions, including how it is shared.
Your redistributing comes with some restrictions. Do not remix or make
derivative works.
Copyrighted materials, available under Fair Use and the TEACH Act for US-based
educators, or other custom arrangements. Go to the resource provider to see
their individual restrictions.
Comments