Dirac Notation Introduction
... So this is the beastie that gives predictions! If you have a state | ψi and what to find out whether the spin is up in the z direction then you calculate the square modulus of the probability amplitude, |h+z | ψi|2 = h+z | ψih+z | ψi∗ and that is the probability, (assuming the state | ψi is normaliz ...
... So this is the beastie that gives predictions! If you have a state | ψi and what to find out whether the spin is up in the z direction then you calculate the square modulus of the probability amplitude, |h+z | ψi|2 = h+z | ψih+z | ψi∗ and that is the probability, (assuming the state | ψi is normaliz ...
B. Sc(H)/Part-III Paper - Bangabasi Evening College
... 1. (a) Prove or disprove: The range of any convergent sequence in is a compact set. e dt (b) If e denoted by the equation 1 , prove that 2 e 3 . 1 t (c) If S is a closed and bounded set of real numbers, then prove that every cover of S has a finite subcover. (d) Show that log( 1 x) log ...
... 1. (a) Prove or disprove: The range of any convergent sequence in is a compact set. e dt (b) If e denoted by the equation 1 , prove that 2 e 3 . 1 t (c) If S is a closed and bounded set of real numbers, then prove that every cover of S has a finite subcover. (d) Show that log( 1 x) log ...
Cartesian tensor
In geometry and linear algebra, a Cartesian tensor uses an orthonormal basis to represent a tensor in a Euclidean space in the form of components. Converting a tensor's components from one such basis to another is through an orthogonal transformation.The most familiar coordinate systems are the two-dimensional and three-dimensional Cartesian coordinate systems. Cartesian tensors may be used with any Euclidean space, or more technically, any finite-dimensional vector space over the field of real numbers that has an inner product.Use of Cartesian tensors occurs in physics and engineering, such as with the Cauchy stress tensor and the moment of inertia tensor in rigid body dynamics. Sometimes general curvilinear coordinates are convenient, as in high-deformation continuum mechanics, or even necessary, as in general relativity. While orthonormal bases may be found for some such coordinate systems (e.g. tangent to spherical coordinates), Cartesian tensors may provide considerable simplification for applications in which rotations of rectilinear coordinate axes suffice. The transformation is a passive transformation, since the coordinates are changed and not the physical system.