Part Il. The illustration below is a representation of the double-slit experiment conducted to electrons. double- slit Screen Electrons electron beam gun interference pattern https://upload.wikimedia.org/wikipedia/commons/c/cd/Double-slit.svg2020 1. Based on the figure, what is produced on the screen? 2. Based on the previous lessons on the duality of a light wave, what does interference 3. Imagine if the sand in Part 1 are electrons, how will these interact when they arrive in the same location at the same time? 4. In an actual electron double-slit experiment, scientists assumed that electrons are bumping into each other (just like the sand grains) thus, creating the patterns on the screen. So, electrons are shoot one at a time to avoid collision of electrons. But the

Part Il. The illustration below is a representation of the double-slit experiment conducted to electrons. double- slit Screen Electrons electron beam gun interference pattern https://upload.wikimedia.org/wikipedia/commons/c/cd/Double-slit.svg2020 1. Based on the figure, what is produced on the screen? 2. Based on the previous lessons on the duality of a light wave, what does interference 3. Imagine if the sand in Part 1 are electrons, how will these interact when they arrive in the same location at the same time? 4. In an actual electron double-slit experiment, scientists assumed that electrons are bumping into each other (just like the sand grains) thus, creating the patterns on the screen. So, electrons are shoot one at a time to avoid collision of electrons. But the

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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QUESTION 5 Two gratings P and Q have slit separations dp and dQ, respectively They are used with the same light source and the same observation screen When grating P is replaced with grating Q, it is observed that the first-order maximum of P is exactly replaced by the second-order maximum of Q. Determine the ratio do/dp. OA. The ratio is equal to 2 B. The ratio is equal to 4 OC The ratio is equal to 5 OD.The ratio is equal to 1 O E. The ratio is equal to 3
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Number 2: Identify the known, unknowns, and formula to be used. Calculate the corresponding photon energy range in electron volts (eV) of the following EM radiation: (*Note: Search for the frequencies/wavelengths of these EM radiation) a. Red light (625-740 nm) b. yellow light (565-590 nm) c. Violet light (380-435 nm) d. UV ray e. Gamma Ray
Briefly explain the properties of X-ray. Explain the construction of stationary anode X-ray tube.
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In the experiment below, the electron shooter shoots one electron at a time through the double slits at the screen. Draw the pattern that the electrons make on the screen after a long period of time in which many electrons have been shot at the screen but the electrons have been shot at the screen one at a time. electron shooter: shoots one electron at a time double slit screen B. Explain how the pattern you drew in A is related to the nature of the electron. C. How would the pattern change if helium atoms were shot one at a time at the screen instead of electrons? Please do the above problem step by step BELOW problem only need the answer for. deBroglie equation (on conversion and equation sheet): What is the wavelength of an electron traveling at 4.19 x 105 m/s in nm?
Explain the steps to find the answer. Show which equation you are using and why you are using it. Also a small reflection about the problem. Thanks.
8. A. What is the name of Instrument A below? Spectroscope Instrument A B. If you use this instrument to look at white light, what will you see? all the colors of the C. What is happening at the atomic level to cause each line below? (Be specific) D. The Ne emission spectrum is shown below. What is the difference between what you would observe when looking at a Ne light without and with instrument A? Ne 4000 5000 6000 7000
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Question 10 c) please
9. Which of the following support the wave -particle duality of light? * I. The concept of photo electric effect. II. Electrons behave as particles with ordinary matter. III. Electrons behave as waves when travelling through space. IV. Light consists of red, orange yellow, green, blue, indigo and violet colors O A. I only O B. I and II O C. I, II, and II O D. I, II, III, and IV