Consider a beam of electrons in a vacuum, passing through a very narrow slit of width...
Consider a beam of electrons in a vacuum, passing through a very narrow slit of width 2.00μm. The electrons then head toward an array of detectors a distance 1.086 m away. These detectors indicate a diffraction pattern, with a broad maximum of electron intensity (i.e., the number of electrons received in a certain area over a certain period of time) with minima of electron intensity on either side, spaced 0.501 cm from the center of the pattern. What is the wavelength λ of one of the electrons in this beam? Recall that the location of the first intensity minima in a single slit diffraction pattern for light is y=Lλ/a, where L is the distance to the screen (detector) and a is the width of the slit. The derivation of this formula was based entirely upon the wave nature of light, so by de Broglie's hypothesis it will also apply to the case of electron waves.
in meters
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Consider a beam of electrons in a vacuum, passing through a very
narrow slit of width...
Consider a beam of electrons in a vacuum, passing through a very narrow slit of width...
Consider a beam of electrons in a vacuum, passing through a very narrow slit of width 2.00μm. The electrons then head toward an array of detectors a distance 1.071 m away. These detectors indicate a diffraction pattern, with a broad maximum of electron intensity (i.e., the number of electrons received in a certain area over a certain period of time) with minima of electron intensity on either side, spaced 0.497 cm from the center of the pattern. What is the...
Consider a beam of electrons in a vacuum, passing through a very narrow slit of width...
Consider a beam of electrons in a vacuum, passing through a very narrow slit of width 2.00μm. The electrons then head toward an array of detectors a distance 0.9050 m away. These detectors indicate a diffraction pattern, with a broad maximum of electron intensity (i.e., the number of electrons received in a certain area over a certain period of time) with minima of electron intensity on either side, spaced 0.512 cm from the center of the pattern. What is the...
Consider a beam of electrons in a vacuum, passing through a very narrow slit of width...
Consider a beam of electrons in a vacuum, passing through a very narrow slit of width 2.00μm. The electrons then head toward an array of detectors a distance 1.015 m away. These detectors indicate a diffraction pattern, with a broad maximum of electron intensity (i.e., the number of electrons received in a certain area over a certain period of time) with minima of electron intensity on either side, spaced 0.515 cm from the center of the pattern. What is the...
UN 6 of 17 Constants Part Consider a beam of electrons in a vacuum, passing through...
UN 6 of 17 Constants Part Consider a beam of electrons in a vacuum, passing through a very narrow slit of width 2.00 pm. The electrons then head toward an array of detectors a distance 1.076 m away. These detectors indicate a diffraction pattern, with a broad maximum of electron intensity (i.e., the number of electrons received in a certain area over a certain period of time) with minima of electron intensity on either side, spaced 0.524 cm from the...
Learning Goal: To understand de Broglie waves and the calculation of wave properties. In 1924, Louis...
Learning Goal: To understand de Broglie waves and the calculation of wave properties. In 1924, Louis de Broglie postulated that particles such as electrons and protons might exhibit wavelike properties. His thinking was guided by the notion that light has both wave and particle characteristics, so he postulated that particles such as electrons and protons would obey the same wavelength-momentum relation as that obeyed by light: λ=h/p, where λ is the wavelength, p the momentum, and h Planck's constant. Part...
Physics - Single Slit Differaction Light from a distant point source is incident on a narrow...
Physics - Single Slit Differaction
Light from a distant point source is incident on a narrow slit. Each of the graphs below shows the intensity on a distant screen as a function of theta. The only difference among the six physical situations is the width of the slit. The horizontal scale is the same for all graphs. The vertical scale has been normalized so that the maximum intensity is the same for all cases. Rank the cases according to the...
Coherent electromagnetic waves with wavelength λλ pass through a narrow slit of width aa. The diffraction...
Coherent electromagnetic waves with wavelength λλ pass through a narrow slit of width aa. The diffraction pattern is observed on a tall screen that is 2.00 mm from the slit. When λ=500nmλ=500nm, the width on the screen of the central maximum in the diffraction pattern is 8.00 mmmm. For the same slit and screen, what is the width of the central maximum when λ=0.125mmλ=0.125mm? 2y=?
Experiment 3 1. Student passes 633 nm laser light through a narrow slit and observe the...
Experiment 3 1. Student passes 633 nm laser light through a narrow slit and observe the diffraction pattern on a screen 7.00 m away. The distance on the screen between the centers of the first minima on either side of the central bright fringe is 35.0 mm. (a) How wide is the slit? (b) The intensity at the center of the pattern is lo. What is the intensity at a point on the screen 3.80 mm from the center of...
A beam of monochromatic green light is diffracted by a slit of width 0.550 mm. The...
A beam of monochromatic green light is diffracted by a slit of width 0.550 mm. The diffraction pattern forms on a wall 2.06 m beyond the slit. The distance between the positions of zero intensity on both sides of the central bright fringe is 4.70 mm. Calculate the wavelength of the light.
A beam of monochromatic light is incident on a single slit of width 0.650 mm. A...
A beam of monochromatic light is incident on a single slit of width 0.650 mm. A diffraction pattern forms on a wall 1.35 m beyond the slit. The distance between the positions of zero intensity on both sides of the central maximum is 2.06 mm. Calculate the wavelength of the light. nm
UN 6 of 17 Constants Part Consider a beam of electrons in a vacuum, passing through a very narrow slit of width 2.00 pm. The electrons then head toward an array of detectors a distance 1.076 m away. These detectors indicate a diffraction pattern, with a broad maximum of electron intensity (i.e., the number of electrons received in a certain area over a certain period of time) with minima of electron intensity on either side, spaced 0.524 cm from the...
Physics - Single Slit Differaction
Light from a distant point source is incident on a narrow slit. Each of the graphs below shows the intensity on a distant screen as a function of theta. The only difference among the six physical situations is the width of the slit. The horizontal scale is the same for all graphs. The vertical scale has been normalized so that the maximum intensity is the same for all cases. Rank the cases according to the...
Experiment 3 1. Student passes 633 nm laser light through a narrow slit and observe the diffraction pattern on a screen 7.00 m away. The distance on the screen between the centers of the first minima on either side of the central bright fringe is 35.0 mm. (a) How wide is the slit? (b) The intensity at the center of the pattern is lo. What is the intensity at a point on the screen 3.80 mm from the center of...
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