From photoelectric effect to digital imaging - beim Quantum Spin

... thank to a quantum effect called the photoelectric effect. We will study this phenomenon, first trying to explain it using classical physics and then using the acquired knowledge about quantum physics. We will also analyse some technological applications the functioning of which is based on the use ...

Test 8 Review

... convex lenses, an eyepiece and an objective. The objective produces an enlarged, inverted, real image in the microscope tube. The eyepiece magnifies the enlarged image further enlarging it. Telescopes are used to examine objects that are far away. Telescopes need to have a large objective lens in or ...

Quanta and Waves - Calderglen High School

... where p is the momentum and h is Planck’s constant In 1927, Davisson and Germer directed a beam of electrons onto the surface of a nickel crystal and observed the reflected beam. Expecting to see diffuse reflection from the surface, they were surprised to find that the scattered electrons exhibited ...

Fredericks transitions induced by light fields

Содержание учебно-методического комплекса

... prism. This changed the colored light back to white light. Newton's study of light led him to learn why faraway objects seen through a telescope do not seem sharp and clear. The curved glass lenses at each end of the telescope acted like prisms. They produced a circle of colored light around an obje ...

General Chemistry for Engineers

... on understanding molecular polarity, the types of intermolecular forces experienced by compounds is examined as a prelude to describing their effects on the properties of pure substances in different phases, including the properties of non-ideal gases and the structure of crystal lattices. This half ...

Physics - Aurora City Schools

... immediately begin working on the “Question of the Day”. If you are tardy three times in a given SEMESTER, you will receive a detention. Any tardy beyond the third will also result in a detention  Be prepared for class. Bring all necessary materials (see list above) and any assignments that are due ...

Comprehensive Lab Manual, third update 2/23

... Undergrad lab particulars: Arrange material to be consistent with order of appearance in the result and discussion section. Present core equations and concepts, whether trivial or not. Skip intermediate steps, which should be clear to all your peers. Always include the final equations, which will b ...

Speed of light - should be measured once again

... from which it follows that the magnetism is with respect to electrostatic interaction only a second order effect. In accordance with formula (6), one of the quantities 0 and 0 can be chosen arbitrarily, while the other one or b should be determined experimentally. For example, putting in the SI sy ...

Part A – Questions and Answers

... Absorption coefficient is defined as the ratio of the sound energy absorbed by certain area of the surface to that of an open window of same area. 5. What is meant by loudness? Loudness is the magnitude of sensation produced on the ear and varies form one person to another person. Loudness is differ ...

L1 WHAT IS LIGHT ?

... electric and magnetic fields which can exist in empty space, light can travel through a vacuum. Since light can be analysed as a complex mixture of a huge number of individual electromagnetic waves, the important properties of light and other electromagnetic waves can therefore be understood in term ...

Magneto Optics - QIOPTIQ Lecture Forum

... However the principle is completely different to that of a semi-transparent mirror. ...

СОДЕРЖАНИЕ Введение

... 6. On what are all physical laws based? 7. What are the basic concepts in all physical phenomena? II. Find the equivalents. Actual, on the basis of, to deal with, to cover, to divide, distinct, both ... and, to be equal, to exist, to depend on, concept, to revolve ...

doc

... A luminescent light source absorbs energy in some form other than heat, and is therefore usually cooler than an incandescent source. The color of a luminescent source is not related to its temperature. A fluorescent light is a type of luminescent source that makes use of chemical compounds called ph ...

Vincent Massey High School

... the frequencies or wavelengths that can lead to constructive or destructive interference at a certain point. c. Relate the amplitude and intensity produced by two or more sources that interfere constructively to the amplitude and intensity produced by a single source. Apply the principles of interfe ...

Version C - UCSB Physics

... Which particle has the smallest mass? (Neglect gravity.) A) particle 1 B) particle 2 C) particle 3 D) cannot be determined from the information given Answer: C Explanation: A) B) C) For circular motion in a magnetic field, the radius is r = (mv)/(|q|B). Since the particles have the same speed and ma ...

- Free Documents

Einstein`s Electrodynamic Pathway to Special Relativity

... according to the same laws as for an observer who, relative to the earth, was at rest. For how should the first observer know or be able to determine, that he is in a state of fast uniform motion? One sees in this paradox the germ of the special relativity theory is ...

Origin of Quantum Theory

... The intensity of a beam of light is increased but the light’s frequency is unchanged. Which of the following is true? 1. The photons travel faster. 2. Each photon has more energy. 3. There are more photons per second. 4. The photons are larger. ...

Document

... An important property of electromagnetic waves is that in empty space they all travel at exactly the same speed of about 300 000 kilometres per second (2.997 924 58  108 m.s-1 to be more precise) quite independently of their wavelength and frequency. The quantities which characterise each elementar ...

Vector field microscopic imaging of light

... As we move away from the centre of the slit, the intensity maxima occur at different analyser angles, suggesting that the vector rotates towards the z direction. Also, the electric-field intensity is strongly asymmetric in the near field. Shown in Fig. 3c is a full vector-field image of the electric ...

Investigation of plasma effects in silicon sensors for the

... • Charge collection times have been measured as function of intensity and applied bias voltage. High bias voltages are needed to collect all the generated charge within the bunch repetition time of the European XFEL (220 ns). • The point spread function (PSF) was measured as function of intensity a ...

Projekt z Obrazového inženýrství

... The symbol used to represent this distance is the Greek letter "Lambda" λ The wavelength can actually be measured between any two corresponding points on the waveform. It is convenient to use the most positive point or the most negative point, both of which are shown above. However, we could have ju ...

A model for steady-state photoconductivity in amorphous selenium

... Electron-hole pairs are created as predicted by the Knights-Davis model [10]. For values of nw lying in the range 2.1-3.5 eV (part II), direct excitation of (D+, D-) pairs occurs and free carriers are created by means of the intermediate (Do, DO) state or by direct excitation of a hole and a correla ...

Section Three: Light and Matter

... such an electric current. No medium is required. The vibrating fields move out from the vibrating source and at any point in space the electric field is perpendicular to the magnetic field and both are perpendicular to the direction of the wave. Light is energy that is emitted by accelerating charge ...

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History of optics

Optics began with the development of lenses by the ancient Egyptians and Mesopotamians, followed by theories on light and vision developed by ancient Greek philosophers, and the development of geometrical optics in the Greco-Roman world. The word optics is derived from the Greek term τα ὀπτικά which refers to matters of vision. Optics was significantly reformed by the developments in the medieval Islamic world, such as the beginnings of physical and physiological optics, and then significantly advanced in early modern Europe, where diffractive optics began. These earlier studies on optics are now known as ""classical optics"". The term ""modern optics"" refers to areas of optical research that largely developed in the 20th century, such as wave optics and quantum optics.

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History of optics