Illustrated below are two classic experiments that illustrate two different models of light. In each case, name the model and explain how the model is used to the observations from the experiment. Experiment A Model of light: Explanation: As the microwave detector is moved from A to B the intensity of the microwaves varies as shown in the graph below. Intensity m A B B A
Q: Different kinds of light have different wavelengths and frequencies. Use the chart above to answer…
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Q: Look at the following diagram and determine which medium light travels SLOWER in, A or B, and why.
A: Required : In which medium the light travels slower.
Q: Different kinds of light have different wavelengths and frequencies. Use the chart above to answer…
A: Energy of photon = hν = hc/λ where ν = frequency λ = wavelength
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A: Given, Frequency of violet light and it is twice of red light.
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Q: A ray of light makes the angle 82° with the surface it is reflected of. What is the angle between…
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Q: Please continue and explain all symbols. What is a prism? What is dispersion?
A: a A prism is an object made up of a transparent material, like glass or plastic, that has at least…
Q: Find the energy of a photon (of violet light) with a frequency of 6.8×104 Hz.
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Q: Describe the phenomenon of dispersion of light. How does it occur, and what are its practical…
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A: Required: To complete the table for wavelength and frequency of various colors.
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A: Refractive index of a medium is the ratio of velocity light in air(c) to velocity oflight in the…
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Q: 2) Imagine that the blue light and orange light from the source were blocked. What color(s) would…
A: Solution: In the spectrum of white light, we see all colors. This spectrum is called the visible…
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- Still on number 2 Identify the knowns, unknowns and formula to be used. Calculate the corresponding photon energy range in electron volts (eV) of the X-ray. (*Note: Search for the frequencies/wavelengths of these EM radiation)Please answer A,B and C and show work on paper and circle answerIn the picture to the right, a light ray traveling in Medium 1 is incident on a boundary with Medium 2. The light ray is then shown traveling into Medium 2. a) On the picture, draw the appropriate normal line. b) Does light travel faster in Medium 1, in Medium 2, or is the speed of light the same in both? Explain briefly in words. Medium 2 Medium 1
- Cover each end of a cardboard tube with metal foil. Then use a pencil to punch a hole in each end, one about 3 millimeters in diameter and the other twice as big. Place your eye to the small hole and look through the tube at the colors of things against the black background of the tube. You'll see colors that look very different from how they appear against ordinary backgrounds. Write down observationAll answers require full explanations in complete sentences. The figure below shows a spherical bubble of CO2 gas in a liquid. The index of refraction of the liquid is 1.5 times larger than that of the gas. A light ray in the liquid is incident on the bubble as shown. The black dot identifies the center of the bubble. Draw, precisely, a reasonable ray transmitted into the bubble and explain how you why it looks as you have drawn it. determinedDescribe the concept of polarization of light. How can you polarize light, and what are the practical applications of polarized light?
- View image, and provide the correct answer. Thank you I greatly appreciate itThe diagram below shows a solid glass sphere with refractive index n = 1.5. By drawing a neat and labeled diagram, describe what happens to the incident ray as it passes through the solid object until it emerges on the other side. Please draw the additional lines (surface normal, would have, weak reflection) at each interface. Incident ray solid glass sphere, n = 1.5Analyze the diagram below. Each segment of the umbrella appears to be a different color. Explain why each section appears to be the color that you see. Answer using 3 to 5 complete sentences.
- Part A The color of dyes results from the preferential absorption of certain wavelengths of light. Certain dye molecules consist of symmetric pairs of rings joined at the center by a chain of carbon atoms, as shown in (Figure 1). Electrons of the bonds along the chain of carbon atoms are shared among the atoms in the chain, but are repelled by the nitrogen-containing rings at the end of the chain. These electrons are thus free to move along the chain but not beyond its ends. They look very much like a particle in a one-dimensional box. For the molecule shown, the effective length of the "box" is 0.85 nm. Assuming that the electrons start in the lowest energy state, what is the longest wavelength this molecule will absorb? Express your answer with the appropriate units. На ? A₁ = Value Units Submit Request Answer ▾ Part B Assuming that the electrons start in the lowest energy state, what is the second longest wavelength this molecule will absorb? Express your answer with the appropriate…See the screenshot uploaded. Answer in a step-by-step format, add diagrams, and detailed side notes for a better understanding. For a more clear response please answer on paper Thank you!