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  • Work
    Learning Object
    Hoeling, Barbara
    This animation is very similar to the previous one. It allows you to explore Snell's law again, only now you can shine the laser beam from any direction you like. You are free to select the media for the upper and lower part of space from the drop-dow . . .
  • Work
    Learning Object
    Hoeling, Barbara
    The eye is basically a hollow globe with a radius of a little less than an inch that is covered with a tough white coating, the sclera. Light rays entering the eye first go through the cornea, a transparent tissue, and the anterior chamber which is fi . . .
  • Work
    Learning Object
    Hoeling, Barbara
    This is a collection of three animations detailing the concept of the magnifying glass.
  • Work
    Learning Object
    Hoeling, Barbara
    Let's now construct the principal ray diagram for a concave, i.e., a diverging lens. The idea is the same as for the convex lens: we will consider how the three particular rays for which we know what happens are refracted by the concave lens: The ray . . .
  • Work
    Learning Object
    Hoeling, Barbara
    We know that not only a plane mirror produces an image of an object in front of it – a convex spherical mirror does, too! Just look at the back of a metal spoon if you don't believe it! This interactive animation shows you how such an image arises, an . . .
  • Work
    Learning Object
    Stevens, Christy
    This tutorial will help you to identify the relationship between your thesis and your sources and will help you practice selecting quality evidence that supports your argument. To play this file, download the ZIP archive, decompress it, and click on t . . .
  • Work
    Learning Object
    Stevens, Christy
    This information literacy tutorial helps students to understand the difference between scholarly vs. popular resources, what scholarly books and articles are, and how to effectively evaluate sources. To play this file, download the ZIP archive, decomp . . .
  • Work
    Learning Object
    Hoeling, Barbara
    Here you can see what is called a principal ray diagram. We have constructed the image of the candle from the three principal rays, as we explained before. This interactive animation allows you now to move the object relative to the lens, and to obser . . .
  • Work
    Learning Object
    Hoeling, Barbara
    This cartoon shows you a marching band, walking from an area of solid ground where the musicians can walk fast, into a region of muddy ground where they have to walk more slowly. Each row of musicians carries a long pole. Watch what happens when the f . . .
  • Work
    Learning Object
    Selco, Jodye I.
    This is a simulation for chemical kinetics and equilibrium including a simulation modeling the dependence of a one-way reaction as an introduction, a simulation showing chemical kinetics conversions, and a simulation showing chemical equilibrium conve . . .
  • Work
    Learning Object
    Hoeling, Barbara
    In this interactive animation, you can explore how the lens of the eye adjusts its thickness. This allows you to see an object in focus as it is moved to different distances from the lens. Drag the object to another position and observe how the lens c . . .
  • Work
    Learning Object
    Hoeling, Barbara
    We have seen in the last video that a convex lens indeed makes an image of our object, the little lit arrow. But how exactly is this image formed? This animation shows you that light rays are going off in all directions from every point of the object. . . .
  • Work
    Learning Object
    Hoeling, Barbara
    This interactive animation is very similar to the one with the convex lens you have used before. Here, too, you can click on the object and drag it to different positions, so you can observe what happens to the image. But now, you are able to move the . . .
  • Work
    Learning Object
    Hoeling, Barbara
    This interactive animation demonstrates how the focal length of a lens changes with its thickness. Like in the previous slide, the lens is shown from the side, and light rays are coming in from the left. Click on the arrows on the lens and pull to mak . . .
  • Work
    Learning Object
    Hoeling, Barbara
    Not all mirrors are flat, of course. Now we want to consider two special cases of mirrors, both of which are pieces of a shiny sphere. Convex spherical mirrors are the outside of a reflecting sphere (or a part of it), and concave spherical mirrors are . . .
  • Work
    Learning Object
    Hoeling, Barbara
    This interactive animation allows you to explore Snell's law by shining a laser from air into a different medium, which can be either water or glass. Move the laser to change the angle of incidence, and observe how the refracted beam changes direction . . .
  • Work
    Learning Object
    Hoeling, Barbara
    On this slide, you see a schematic of a principal ray diagram. By identifying two sets of similar triangles, we will be able to derive the thin lens equation. Let's first define the variables: i is the image distance, and o the object distance; f is t . . .
  • Work
    Learning Object
    Hoeling, Barbara
    Here you have another principal ray diagram, just like the one we constructed on the previous page, only this one is interactive. You can click on the object and drag it, and observe what happens to the image. Notice that, as we saw on the previous pa . . .
  • Audio
    Learning Object
    Hoeling, Barbara
    This is an audio file detailing how light rays get kinks. The audio is as follows: "Have you ever observed what happens when you stick a pencil in a glass of water, and then look at it from different directions? This picture shows you that the pencil . . .
  • Work
    Learning Object
    Bruno, Mary
    This is a "drop and drag" activity that lets you discover the organization of the periodic table and observe periodic table trends.