Linear Zeeman effect for collective modes in He3-A
... The A-phase is probably one of the most interesting objects in superfluid He3. It provides us with an example of an anisotropic quantum superfluid. The main properties of He3-A are connected with the existence, on the Fermi surface, of two poles at which the gap in the single-particle spectrum vanis ...
... The A-phase is probably one of the most interesting objects in superfluid He3. It provides us with an example of an anisotropic quantum superfluid. The main properties of He3-A are connected with the existence, on the Fermi surface, of two poles at which the gap in the single-particle spectrum vanis ...
Yr 12 Mid year Exam 2015 final draft
... implied that the Examination paper mirrors in every respect the actual HSC Examination question paper in this course. This paper does not constitute ‘advice’ nor can it be construed as an authoritative interpretation of Board of Studies intentions. No liability for any reliance, use or purpose relat ...
... implied that the Examination paper mirrors in every respect the actual HSC Examination question paper in this course. This paper does not constitute ‘advice’ nor can it be construed as an authoritative interpretation of Board of Studies intentions. No liability for any reliance, use or purpose relat ...
Mr. Gauss`s Law
... We usually define the unit normal vector n. If the area is FLAT, the area vector is given by An, where A is the area. A is usually a differential area of a small part of a general surface that is small enough to be ...
... We usually define the unit normal vector n. If the area is FLAT, the area vector is given by An, where A is the area. A is usually a differential area of a small part of a general surface that is small enough to be ...
The Quantized Hall Effect - University of California, Berkeley
... tion perpendicular both to their origi- increase. The reason is that the “drift nal direction and to that of the magnet- velocity” with which the guiding cenic field: they will move toward the top ter of each electron’s cycloidal path or bottom edge of the page. If elec- moves from left to right is ...
... tion perpendicular both to their origi- increase. The reason is that the “drift nal direction and to that of the magnet- velocity” with which the guiding cenic field: they will move toward the top ter of each electron’s cycloidal path or bottom edge of the page. If elec- moves from left to right is ...
45 Electric Fields - Mr. Smith`s Website
... 1. A negative charge of 2.4 × 10−6 C experiences an electric force of magnitude 3.2 N , acting to the left. What is the magnitude and direction of the electric field at that point? ( 1.3 × 106 N / C ⎡⎣ right ⎤⎦ ) 2. At a certain point in an electric field, the magnitude of the electric field intensi ...
... 1. A negative charge of 2.4 × 10−6 C experiences an electric force of magnitude 3.2 N , acting to the left. What is the magnitude and direction of the electric field at that point? ( 1.3 × 106 N / C ⎡⎣ right ⎤⎦ ) 2. At a certain point in an electric field, the magnitude of the electric field intensi ...
electrical flux
... locations where the radius of curvature of the surface is smallest – at sharp points. ...
... locations where the radius of curvature of the surface is smallest – at sharp points. ...
Problem 1. (5 points) A number of point charges with values Qi are
... (C) the electric field due the all particles at a point far away, (D) the electric field due to all particles at a point in the center of the group (assuming that there is no particle at this point), (E) the electric flux through a closed surface around all charges Forces between charges depend on t ...
... (C) the electric field due the all particles at a point far away, (D) the electric field due to all particles at a point in the center of the group (assuming that there is no particle at this point), (E) the electric flux through a closed surface around all charges Forces between charges depend on t ...