Want this question answered?
According to the Physics Classroom, "When the object is located at the focal point, no image is formed."http://www.physicsclassroom.com/class/refrn/Lesson-5/Converging-Lenses-Object-Image-Relations
Parallel rays approaching the mirror are reflected in a converging manner to a focal point.
Yes, but it doesn't just float there in thin air. You need something there to make the image show up, such as smoke, tissue paper, fog, steam, ground (frosted) glass, etc. If you don't have any of those, you can take a short-focus eyepiece and look at the focal point with it. In the eyepiece, you'll see the image at the focal point. (It won't look like an image. It'll look like the object.)
All of the light entering the lens converges on the other side to a single point, the lens' focal point.
Place an object between a magnifying lens and its focal point. The image is right side up and larger than the object
According to the Physics Classroom, "When the object is located at the focal point, no image is formed."http://www.physicsclassroom.com/class/refrn/Lesson-5/Converging-Lenses-Object-Image-Relations
Parallel rays approaching the mirror are reflected in a converging manner to a focal point.
They make the light rays converge to a point. Parallel rays converge at the focal point of the lens
Yes, but it doesn't just float there in thin air. You need something there to make the image show up, such as smoke, tissue paper, fog, steam, ground (frosted) glass, etc. If you don't have any of those, you can take a short-focus eyepiece and look at the focal point with it. In the eyepiece, you'll see the image at the focal point. (It won't look like an image. It'll look like the object.)
by either moving the object understudy to the focal point of the lens or to move the lens until the object is at the focal point.
Focal Point I know where you got it from lol
All of the light entering the lens converges on the other side to a single point, the lens' focal point.
Venus
A converging (convex) lens will produce a shadow with the focal point in the center.
Convex lenses cause the focal point to appear behind the lens (positive convergence). In myopia, the focal point lies somewhere between the lens and the retina, it needs to converge at a point farther than it is converging, this is why a convex lens is used, to push the focal point back so it will hit the retina. A concave lens would do the opposite for hyperopia (the focal point appears behind the retina), it will adjust the focal point to lie more anteriorly and land on the retina.
When the object is located at a location beyond the 2F point, the image will always be located somewhere in between the 2F point and the focal point (F) on the other side of the lens.
Place an object between a magnifying lens and its focal point. The image is right side up and larger than the object