bigger (*or closer*)
Convex lenses always form smaller, virtual images
A concave lens can produce images that are smaller than the object, whereas a convex lens can produce images that are larger than the object. This is due to the way light rays are refracted by the different shapes of the lenses.
The focal length of a convex lens determines the magnification of the image produced by the magnifying glass. A shorter focal length will result in a larger magnification, making the image appear bigger. Conversely, a longer focal length will result in a smaller magnification, making the image appear smaller.
Convex lenses make objects appear larger when viewed through them. When an object is placed closer to a convex lens than its focal point, the lens will magnify the image. However, if the object is placed beyond the focal point, the lens will create a smaller, inverted image.
Concave lenses make objects look smaller when they are placed close to the lens, while convex lenses make objects look smaller when they are placed far from the lens. This effect is due to the way light rays are refracted by the different lens shapes, causing the image to appear reduced in size.
The lens found in both the magnifying glass and human eye are called the convex lens. The convex lens can form real images and virtual images. In the magnifying glass the convex lens helps it form of an object that are larger or smaller tjan the object is. In the human eye, it helps focus the light on the back surface, or retina, of tje eye.
The lens found in both the magnifying glass and human eye are called the convex lens. The convex lens can form real images and virtual images. In the magnifying glass the convex lens helps it form of an object that are larger or smaller tjan the object is. In the human eye, it helps focus the light on the back surface, or retina, of tje eye.
The lens found in both the magnifying glass and human eye are called the convex lens. The convex lens can form real images and virtual images. In the magnifying glass the convex lens helps it form of an object that are larger or smaller tjan the object is. In the human eye, it helps focus the light on the back surface, or retina, of tje eye.
The lens found in both the magnifying glass and human eye are called the convex lens. The convex lens can form real images and virtual images. In the magnifying glass the convex lens helps it form of an object that are larger or smaller tjan the object is. In the human eye, it helps focus the light on the back surface, or retina, of tje eye.
The lens found in both the magnifying glass and human eye are called the convex lens. The convex lens can form real images and virtual images. In the magnifying glass the convex lens helps it form of an object that are larger or smaller tjan the object is. In the human eye, it helps focus the light on the back surface, or retina, of tje eye.
Images formed by a concave lens are always virtual, upright, and reduced in size. On the other hand, images formed by a convex mirror are virtual, erect, and diminished in size. Additionally, concave lenses can form both real and virtual images depending on the object distance, while convex mirrors only produce virtual images.
A concave lens makes images appear upright and smaller, while a convex lens can invert images when the object is placed beyond the focal point. However, it is typically a convex lens that is used in systems like cameras or projectors that can flip images upside down. The inversion occurs due to the way light rays converge and diverge through the lens.