Two Times - University of Southern California
... •Is there Supersymmetry (to resolve the mass hierarchy problem: stability) ? a) If SUSY exists, there are new constraints from 2T-physics ! Tests ! b) 2T-physics may provide an alternative (conformal symmetry, 6 dims.!!) ? •What is dark matter ? 25% of the matter in the Universe. ...
... •Is there Supersymmetry (to resolve the mass hierarchy problem: stability) ? a) If SUSY exists, there are new constraints from 2T-physics ! Tests ! b) 2T-physics may provide an alternative (conformal symmetry, 6 dims.!!) ? •What is dark matter ? 25% of the matter in the Universe. ...
Gravity-anti-Gravity Symmetric Mini - Superspace Research proposal
... wave function can only host a weak Big Bang boundary condition, albeit for any k, a strong Big Bang boundary condition requires a GaG - even entangled wave function, and singles out k = 0 flat space. At the second stage, one can add a Brans-Dicke kinetic, (ωBD 6= 0), term for the dilaton. ...
... wave function can only host a weak Big Bang boundary condition, albeit for any k, a strong Big Bang boundary condition requires a GaG - even entangled wave function, and singles out k = 0 flat space. At the second stage, one can add a Brans-Dicke kinetic, (ωBD 6= 0), term for the dilaton. ...
Basic_Equations
... So the J E term is the negative of the sum of the time rate of change of the electromagnetic energy density and the divergence of the Poynting vector, which measures the electromagnetic energy flux density. If we had wanted to, we could have written (4) as conservation equation for the total (flui ...
... So the J E term is the negative of the sum of the time rate of change of the electromagnetic energy density and the divergence of the Poynting vector, which measures the electromagnetic energy flux density. If we had wanted to, we could have written (4) as conservation equation for the total (flui ...
Section 2.4 Notes: Congruent Supplements and Complements
... Name: ____________________________________________ ...
... Name: ____________________________________________ ...
Worksheet 5.05
... Let us assume that line p is not parallel to line m. Then it follows that m 1 and m 2 cannot each be 110° since this contradicts the Alternate Exterior Angles Converse Theorem that states that if two lines are cut by a transversal so that alternate exterior angles are congruent then the lines must ...
... Let us assume that line p is not parallel to line m. Then it follows that m 1 and m 2 cannot each be 110° since this contradicts the Alternate Exterior Angles Converse Theorem that states that if two lines are cut by a transversal so that alternate exterior angles are congruent then the lines must ...
Gauss`s law, infinite homogenous charge distributions and
... electric flux through the Gaussian sphere. This result can be easily extend to continuous charge distributions. Of course we can obtain Gauss’s law by making use of the concept of solid angle and arbitrarily shaped surfaces, but our Gaussian sphere can be made as large as we please and enclose any n ...
... electric flux through the Gaussian sphere. This result can be easily extend to continuous charge distributions. Of course we can obtain Gauss’s law by making use of the concept of solid angle and arbitrarily shaped surfaces, but our Gaussian sphere can be made as large as we please and enclose any n ...
Elementary - MILC - Fayette County Public Schools
... Pythagorean Theorem. use the Pythagorean Theorem to find the distance between two points in the coordinate plane. Students who demonstrate understanding can… explain a proof of the Pythagorean Theorem and its converse. determine the unknown side lengths in right triangles in realworld and math ...
... Pythagorean Theorem. use the Pythagorean Theorem to find the distance between two points in the coordinate plane. Students who demonstrate understanding can… explain a proof of the Pythagorean Theorem and its converse. determine the unknown side lengths in right triangles in realworld and math ...
To View and Print the Course Syllabus PDF
... Define parallel and perpendicular lines. Unit 1.2: Making Geometric Constructions Use paper, pencil, straightedge, and compass to copy and bisect a segment, to copy and bisect an angle, and to construct a perpendicular line. Create a detailed explanation of each process. Use software to copy s ...
... Define parallel and perpendicular lines. Unit 1.2: Making Geometric Constructions Use paper, pencil, straightedge, and compass to copy and bisect a segment, to copy and bisect an angle, and to construct a perpendicular line. Create a detailed explanation of each process. Use software to copy s ...
Semester Test Review #1 I can use the term equidistant. #2 I can
... #1 I can use the term equidistant. #2 I can use the terms point and line. #3 I can draw representations of points and lines. #4 I can use the undefined terms point, line, and plane. #5 I can draw representations of points, lines and planes. #6 I can use the terms collinear, coplanar, and intersectio ...
... #1 I can use the term equidistant. #2 I can use the terms point and line. #3 I can draw representations of points and lines. #4 I can use the undefined terms point, line, and plane. #5 I can draw representations of points, lines and planes. #6 I can use the terms collinear, coplanar, and intersectio ...
Noether's theorem
Noether's (first) theorem states that every differentiable symmetry of the action of a physical system has a corresponding conservation law. The theorem was proven by German mathematician Emmy Noether in 1915 and published in 1918. The action of a physical system is the integral over time of a Lagrangian function (which may or may not be an integral over space of a Lagrangian density function), from which the system's behavior can be determined by the principle of least action.Noether's theorem has become a fundamental tool of modern theoretical physics and the calculus of variations. A generalization of the seminal formulations on constants of motion in Lagrangian and Hamiltonian mechanics (developed in 1788 and 1833, respectively), it does not apply to systems that cannot be modeled with a Lagrangian alone (e.g. systems with a Rayleigh dissipation function). In particular, dissipative systems with continuous symmetries need not have a corresponding conservation law.