As an image moves closer to a convex lens, the image becomes larger and appears more magnified. The image may also shift from being virtual to real, depending on the distance and position of the object relative to the lens's focal point.
As you move closer to a convex mirror, your image will appear smaller and more upright. The image will also move further away from the mirror.
As an object moves closer to a convex lens, the size of the image increases. The orientation of the image remains the same, which means it is still upright if the object is upright and inverted if the object is inverted.
If the object is moved closer to a convex lens, the image distance will decrease and the image will move closer to the lens. The image size may increase depending on the object distance and object size relative to the focal length of the lens.
When an object is placed closer to a convex lens, the image that is formed will be farther away from the lens than the object is. This is because the convex lens will refract the light rays in a way that causes them to converge at a point behind the lens, creating a real and magnified image.
No, a convex lens produces a real image when the object is beyond the focal point and a virtual image when it is closer than the focal point.
As you move closer to a convex mirror, your image will appear smaller and more upright. The image will also move further away from the mirror.
The entire image is flipped upsidedown.
As an object moves closer to a convex lens, the size of the image increases. The orientation of the image remains the same, which means it is still upright if the object is upright and inverted if the object is inverted.
If the object is moved closer to a convex lens, the image distance will decrease and the image will move closer to the lens. The image size may increase depending on the object distance and object size relative to the focal length of the lens.
When an object is placed closer to a convex lens, the image that is formed will be farther away from the lens than the object is. This is because the convex lens will refract the light rays in a way that causes them to converge at a point behind the lens, creating a real and magnified image.
No, a convex lens produces a real image when the object is beyond the focal point and a virtual image when it is closer than the focal point.
When an object moves towards a convex lens, the size of the image increases. This is due to the image distance decreasing as the object moves closer to the lens, resulting in the image appearing larger.
As an object moves closer to a convex lens, the image size generally increases due to magnification. The image location also changes, moving further away from the lens. This is because the convex lens converges light rays to focus them at a farther distance as the object comes closer.
For forming a smaller image than the object using convex and concave lenses, you can place the object closer to the convex lens than its focal length, then position a concave lens closer to the convex lens than the sum of their focal lengths. This arrangement will produce a smaller inverted image. Adjustments can be made by changing the distances between the lenses to fine-tune the size and position of the image.
When an object approaches a convex lens, the image formed can either be real or virtual depending on the object's distance from the lens. If the object is beyond the lens' focal point, a real image forms on the opposite side of the lens. If the object is within the focal point, then a virtual image is formed on the same side as the object.
the relationship is that in order to have an image u have to have a special type of attituede like nice and sweet also it ddepends on the type of person and there attitude ^^^ Don't listen to this whatsoever. Now, the attitude of the image describes whether the image is upright or inverted, correct? And the type of image is real or virtual. Now, the relationship between the two is the same for all types of mirrors/lenses. With concave mirrors, when the image is real then it is inverted, whereas when it's virtual it is upright. With convex mirrors when the image is virtual it is also upright, and although I haven't seen a real image on convex mirror ray diagrams, theoretically if the image was real it would be inverted. With a diverging lens if the image is virtual it is upright and as with the convex lens although I have never seen a real image on a ray diagram for a diverging lens it would theoretically be inverted. Finally, with a converging lens if the image is real then it's inverted and if it's virtual it is upright. So, the relationship between attitude and image is this: If the type of image is real, the attitude of the image is inverted. If the type of image is virtual, the attitude of the image is upright.
When you look through a convex lens, close objects appear larger and farther away, while distant objects appear closer and smaller. This is due to the way the lens refracts light, causing it to converge and focus at a point behind the lens, creating a magnified or reduced image depending on the object's distance.