Testi Po Elektrotehnike I Elektronike S Otvetami

Laboratorijske vežbe iz Osnova digitalne elektronike ETF u Beogradu, Odsek za elektroniku 3 C.2. Kombinaciona mreža sa nekim od osnovnih logičkih kola (VHDL opis, simulacija i verifikacija dizajna) Na slici 3 je prikazana logička šema kombinacione mreže koja je predmet ovog zadatka. Na slici su označeni ulazni, izlazni i unutrašnji signali. Test, Inspection and Measurement Systems for SMT, IC Packaging and Board Manufacturing.

Autoriteti i Komunikimeve Elektronike dhe Postare - AKEP Rr Reshit Collaku, Nr 43 1001 Tirana ALBANIA phone: +6 fax: +6 e-mail: Areas serviced: AL Apart from agreed Internet operational purposes, no part of this information may be reproduced, stored in a retrieval system or transmitted, in any form or by any means (electronic, mechanical, recorded or otherwise), without prior permission of the RIPE NCC. Any use of this information to target advertising, or similar activities, is explicitly forbidden and may be prosecuted. The RIPE NCC requests notification of any such activities or suspicions thereof.

Testi po elektrotehnike i elektronike s otvetami free

Sadržaj • Kvantna mehanika • Fotoni • Elektroni • Atomi • Čestice • Talasi Description When do photons, electrons, and atoms behave like particles and when do they behave like waves? Watch waves spread out and interfere as they pass through a double slit, then get detected on a screen as tiny dots. Opisanie pacyuka v noch pered rozhdestvom

Use quantum detectors to explore how measurements change the waves and the patterns they produce on the screen. Primjeri obrazovnih ciljeva • Visualize a photon, electron, neutron, or helium atom as a wave packet that collapses upon detection. • Visualize what happens to the wave between slit and screen.

• Justify how the double slit experiment explains that matter and light behave as waves. • Describe the behavior of a wave function in the presence of a detector, and explain how putting a detector over a slit destroys the interference pattern. Determine how the interference pattern will change if you change the mass, speed, or wavelength. • Recognize large range of size scales involved in quantum interference experiments. • Recognize that two coherent light sources can interfere, but only if they have the same wavelength. Kathy Perkins, Carl Wieman UG-Intro (VSŠ) DZ Fizika Sam McKagan, Kathy Perkins, Carl Wieman, and Noah Finkelstein UG-Adv (VSŠ2) UG-Intro (VSŠ) KP Demo Fizika Sam McKagan, Kathy Perkins, and Carl Wieman UG-Adv (VSŠ2) UG-Intro (VSŠ) DZ Fizika Julia Chamberlain HS (VŠ) UG-Intro (VSŠ) Ostalo Hemija Trish Loeblein HS (VŠ) Ostalo Hemija Nauka o Zemlji Biologija Fizika Sarah Borenstein MS (SŠ) Ostalo Hemija Fizika Biologija Nauka o Zemlji Elyse Zimmer HS (VŠ) MS (SŠ) Ostalo Biologija Fizika Hemija Roberta Tevlin HS (VŠ) Demo KP DZ Fizika Patricia Abdel Rahim UG-Adv (VSŠ2) Lab Fizika.