it is convex lens ;)
Real images can be both upright and inverted depending on the position of the object relative to the focal point of the lens or mirror. When the object is outside the focal point, the image is inverted. When the object is inside the focal point, the image is upright.
Real images can be upright or inverted depending on the location of the object with respect to the focal point of a converging lens or concave mirror. If the object is beyond the focal point, the image will be inverted; if the object is between the focal point and the lens/mirror, the image will be upright.
The image formed by a lens can be either upright or inverted, depending on the position of the object relative to the focal point of the lens. If the object is beyond the focal point, the image will be real, inverted, and reduced. If the object is within the focal point, the image will be virtual, upright, and magnified.
Convex lenses can produce both inverted and upright images. Whether an image is inverted or upright depends on the position of the object relative to the focal point of the lens. If the object is placed beyond the focal point, the image will be inverted; if it is placed between the focal point and the lens, the image will be upright.
If the object lies beyond twice the focal length of a concave mirror, a real and inverted image is produced between the focal point and the mirror's center of curvature. The image is diminished in size compared to the object.
Real images can be both upright and inverted depending on the position of the object relative to the focal point of the lens or mirror. When the object is outside the focal point, the image is inverted. When the object is inside the focal point, the image is upright.
Real images can be upright or inverted depending on the location of the object with respect to the focal point of a converging lens or concave mirror. If the object is beyond the focal point, the image will be inverted; if the object is between the focal point and the lens/mirror, the image will be upright.
The image formed by a lens can be either upright or inverted, depending on the position of the object relative to the focal point of the lens. If the object is beyond the focal point, the image will be real, inverted, and reduced. If the object is within the focal point, the image will be virtual, upright, and magnified.
Convex lenses can produce both inverted and upright images. Whether an image is inverted or upright depends on the position of the object relative to the focal point of the lens. If the object is placed beyond the focal point, the image will be inverted; if it is placed between the focal point and the lens, the image will be upright.
If the object lies beyond twice the focal length of a concave mirror, a real and inverted image is produced between the focal point and the mirror's center of curvature. The image is diminished in size compared to the object.
If an object's distance from the concave mirror is greater than the mirror's focal length, then the mirror image of it will be inverted. If the distance from the concave mirror is less than the focal length of the mirror, the image will not be inverted. No image will be produced if the distance from the mirror to the object is equal to the mirror's focal length.
The object between a magnifying lens and its focal point will appear magnified and inverted. As you move the object closer to the focal point, the image also becomes larger and more distorted until it is ultimately lost at the focal point.
The telescope has an object lens at the top, which is a large lens with a long focal length. It produces an inverted image of a distant obect at the focal point. The eyepiece is a smaller lens, and you look through the eyepice at the image formed by the object lens. The image is formed in space, it does not need a screen, and you can see it with the eyepiece. The ratio of the focal lengths of the two lenses is the linear magnification.
An object positioned beyond the focal point of a convex lens will produce a real and inverted image between the focal point and the lens. An object positioned at the focal point will produce no image. An object positioned between the focal point and the lens will produce a virtual and upright image beyond the lens.
An inverted and smaller real image is produced by a converging lens when an object is placed twice as far as the focal point. The image is located between the focal point and twice the focal length from the lens.
Inverted
A convex lens converges light rays to a focal point, which creates a real and inverted image if the object is placed beyond the focal length. If the object is placed within the focal length, a virtual and upright image is formed.