First Exam, 2004, with solutions

... ~ is perpendicular to the surface. We could integrate where dA over the hemispherical surface but we would have to take into ~ is changing. ~ and dA account the fact that the angle between E It’s easier to recognize that the flux through the hemispherical surface is equal to but opposite in sign to ...

from a hot cathode (primary electrons), which

... Comparing this with equation (6) which gives the field due to plasma oscillations we see that the two equations are identical if a = 3.31 which is a reasonable value. We may conclude that the fields due to plasma oscillations in thermal equilibrium with the electrons are of about the same magnitude ...

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... • The physics of particles and fields deals with the fundamental constituents of matter and their interactions. This branch of physics is also called (elementary) particle physics or high energy physics and sometimes sub-atomic or sub-nuclear physics. Subatomic/nuclear means of size less than atomic ...

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... an electron is captured faster than a hole into a QD. The result is that the electron will populate the QD solely for a certain time window, before the hole is captured. During this time window and at polarized excitation, which creates spin polarized carriers, the electron can polarize the QD nucle ...

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... The integration takes part along all sides of the dashed cuboid. If the surface A is much larger than the side surfaces, we can neglect the contribution of sides to the integral. Idealizing the surface A to the infinite value, we can also postulate that due to the translational symmetry (no matter w ...

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... 13.1.1 Definition of a group . . . . . . . . . . . . . . . . . . . . . . . . . . . 13.1.2 The Cayley table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13.1.3 Conjugated elements, subgroups and classes . . . . . . . . . . . . . . 13.1.4 Isomorfism and homomorfism; representations . . . ...

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...  These tensors can belong to various ranks: zeroth rank, first rank, second rank, etc.   E.g. Temperature field is a scalar field where each point in space is described by one number the ‘T’ at that point (T(x,y,z)). Scalar fields are tensor fields of rank-0. On the other hand some fields require ...

:

... No other elementary particle is so abundant in Nature as the electron. At the same time it possesses a quantum of charge, -e, and a mass, that is many times smaller than the masses of all other charged particles, i.e. experimental studies of all its properties can be carried out using devices many t ...

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... The potential is a constant everywhere on the surface of the conductor The potential everywhere inside the conductor is constant and equal to its value at the surface ...

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... Suppose a charged parallel plate capacitor is dipped into a dielectric liquid. The liquid is pulled up into the capacitor. The final position of the liquid can be determined by minimizing the system energy. The geometry is shown in Figure 4. In this problem the voltage is disconnected from the capac ...

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16.7 The Electric Field Force on a point charge in an

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... mentioned either in these sections or in the text. Questions that relate to data analysis and laboratory work are typically drawn from or inspired by the skills sections. Below are some additional points to keep in mind when using these outcomes.  The outcomes do not indicate the depth of understan ...

Physics 132 Prof. Douglass Schumacher Introductory Physics:

... From the demonstrations it appears we must conclude: • A non-contact force can exist between currents, and it’s not the gravitational or electric force. • A force can exist between a magnet and a current. We guessed (correctly, it turns out) that the force between currents is also magnetic. Currents ...

Chapter 21

... The interaction between charges was analyzed as a charge exerting a force on another charge (Coulomb’s Law). Another way to analyze the interaction is to say that one charge is interacting with the “electric field” produced by the other charge. That is, a charge placed at a particular position in sp ...

Applications of Gauss` Law to Charged Insulators

... • Gauss’ law is useful when there is a high degree of symmetry in the charge distribution. • The surface should always be chosen so that it has the same symmetry as that of the charge distribution. • Electric Field due to a Point Charge: For a point charge, choose a spherical gaussian surface of ra ...

General Physics I

... Enet ...

Narrowing down the candidate of the NAE (nuclear active

... unstable and transits to more stable α-particle. Because the spin of α is zero, it is not attracted by *e. The magnetic monopole simply emits the alpha particle, and there remains fresh monopole *e, and which starts to attracts surrounding fuel deuterons again. In this way the magnetic monopole play ...

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Introduction to gauge theory

A gauge theory is a type of theory in physics. Modern theories describe physical forces in terms of fields, e.g., the electromagnetic field, the gravitational field, and fields that describe forces between the elementary particles. A general feature of these field theories is that the fundamental fields cannot be directly measured; however, some associated quantities can be measured, such as charges, energies, and velocities. In field theories, different configurations of the unobservable fields can result in identical observable quantities. A transformation from one such field configuration to another is called a gauge transformation; the lack of change in the measurable quantities, despite the field being transformed, is a property called gauge invariance. Since any kind of invariance under a field transformation is considered a symmetry, gauge invariance is sometimes called gauge symmetry. Generally, any theory that has the property of gauge invariance is considered a gauge theory. For example, in electromagnetism the electric and magnetic fields, E and B, are observable, while the potentials V (""voltage"") and A (the vector potential) are not. Under a gauge transformation in which a constant is added to V, no observable change occurs in E or B.With the advent of quantum mechanics in the 1920s, and with successive advances in quantum field theory, the importance of gauge transformations has steadily grown. Gauge theories constrain the laws of physics, because all the changes induced by a gauge transformation have to cancel each other out when written in terms of observable quantities. Over the course of the 20th century, physicists gradually realized that all forces (fundamental interactions) arise from the constraints imposed by local gauge symmetries, in which case the transformations vary from point to point in space and time. Perturbative quantum field theory (usually employed for scattering theory) describes forces in terms of force-mediating particles called gauge bosons. The nature of these particles is determined by the nature of the gauge transformations. The culmination of these efforts is the Standard Model, a quantum field theory that accurately predicts all of the fundamental interactions except gravity.

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Introduction to gauge theory