Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Day 19: Electrostatic Potential Energy & CRT Applications
Document related concepts
Gibbs free energy wikipedia , lookup
Introduction to gauge theory wikipedia , lookup
Nuclear physics wikipedia , lookup
Internal energy wikipedia , lookup
Conservation of energy wikipedia , lookup
Electric charge wikipedia , lookup
Hydrogen atom wikipedia , lookup
Potential energy wikipedia , lookup
X-ray photoelectron spectroscopy wikipedia , lookup
Transcript
Day 19: Electrostatic Potential Energy & CRT Applications • The change in electric potential energy of a charge moving through an electric field • The electric potential energy of two charges • The electric potential energy of multiple charges • The Electron Volt • Work Done to Dissemble a Hydrogen Atom • Cathode Ray Tube (CRT) Applications Electric Potential Energy • Suppose a point charge q is moved between two points A & B, where the electric potential due to the charge is VA & VB respectively. The change in the electric potential energy of q in the field is: U U B U A qVB VA E q A B Electrostatic Potential Energy • In isolation (ie: no electric field), a point charge has no electric potential energy, because there is no force acting on it. • If a second charge is brought near the first charge, there is an electrostatic force between them, then the electric potential of the two charges is: 1 Q1Q2 U 40 r1, 2 • This represents the work done by an external force to bring Q2 from ∞ to r1,2 Q1 Q2 r1,2 Electrostatic Potential Energy • Now, in a system of three charges, the total potential energy will be the work done to bring all three charges together. Q1 Q2 Q3 r1,2 r2,3 r1,3 1 Q1Q2 Q1Q3 Q2Q3 U 40 r1, 2 r1,3 r2,3 • Systems of more charges requires n P2 n! terms n r !r! The Electron Volt • The Electron Volt is a measure of energy to deal with small energies at the atomic level. • 1 eV is the energy required by a particle, carrying a charge of q = e, moving through a potential difference of 1.0 volt if q e 1.602 1019 C and U q V then 1 eV (1.602 1019 C )(1.0V ) 1.602 1019 J The Work Done to Disassemble a Hydrogen Atom (-) r = .529 x 10-10 m (+) • The work necessary to remove the electron is equal to the change in total energy of the atom ( energy as an atom vs. the energy of the atom infinitely far apart • ΔE = -13.6 eV. This is, in fact, the ionization energy of hydrogen Cathode Ray Tube (CRT) Application • A CRT is the basis of classic television receivers, computer monitors, and oscilloscopes • A CRT is based on a simple vacuum tube diode. CATHODE • A negatively charged cathode is heated by a 6.3 V PS to 1000°C, emitting electrons which are attracted to a positive anode (plate), in that direction only. Cathode Ray Tube (CRT) Application • A CRT is a device which is based upon the thermionic diode, in which electrons emitted by the cathode are accelerated by a high voltage anode, through a small hole in the anode – thus coins the term “electron gun” • The electrons collide with the screen which has a phosphorescent coating, illuminating the screen with a spot Cathode Ray Tube (CRT) Application • Two sets of deflection plates (1-vertical, 1-horizontal) use an applied voltage to steer the electron beam into a sweeping pattern, called raster. • A control grid adjusts the brightness of the beam, using a video signal voltage applied to it. • An oscilloscope is a piece of electronic equipment using a CRT to measure amplitude and frequency of voltages.
