A plain mirror cannot form a real image; it only produces virtual images. A virtual image is formed when light rays appear to diverge from a point behind the mirror, making it seem as though the image is located there. In contrast, a real image is created when light rays converge and can be projected onto a screen, which plain mirrors do not do. For real images, concave mirrors or lenses are typically required.
A convergent beam of light incident on a plane mirror will form a real and inverted image.
Yes. Both the objective lens in a refracting telescope and the main mirror in a reflecting telescope form real images at the prime focus. A frame of photo film or a CCD placed at that spot will capture the image.
The image formed by a convex spherical mirror can be either real or virtual, depending on the object's position relative to the mirror's focal point. If the object is beyond the focal point, the image is real, inverted, and diminished. If the object is between the mirror and the focal point, the image is virtual, upright, and magnified.
In a concave mirror, the location of an object relative to the focal point determines the characteristics and location of the image formed. When the object is beyond the center of curvature, the image is real, inverted, and smaller; when the object is at the center, the image is real, inverted, and the same size. If the object is between the focal point and the mirror, the image becomes virtual, upright, and larger. Thus, the position of the object directly influences whether the image is real or virtual, its orientation, and its size.
If our image is real and inverted and smaller than the object ,then it is a concave mirror; if the image is virtual and erect and larger than the object,then it is a convex mirror; if the image is of the same size as of the object,it is a plane mirror. that is how we can distinguish or identify which of the given mirrors are what. BUT if the angle is very small you cannot tell Plane is flat, convex it curves outwards and concave it curves inwards.
A plain mirror produces a virtual image. This means the image appears to be behind the mirror and cannot be projected onto a screen.
real and upright image
A plane (flat) mirror reflects an image which is the same size and shape, and colour as the object in front of the mirror. A concave mirror can produce a magnified image. If the image is in front of the mirror it is a real image; if behind it is a virtual (non-real) image. A real image can be cast upon a white the best) surface
A plane mirror does not form a real image. It produces a virtual image, which appears to be behind the mirror and is the same size and orientation as the object being reflected.
No, a plane mirror cannot form a real image. It forms a virtual image that appears to be behind the mirror at the same distance as the object is in front of it.
to see our face to make real image to make virtual image
A convergent beam of light incident on a plane mirror will form a real and inverted image.
The focal length of a concave mirror to form a real image is positive. It is equal to half the radius of curvature (R) of the mirror, and the image is formed between the focal point and the mirror.
Yes, a concave mirror can form a real image that is inverted and smaller than the object. This type of image is produced when the object is placed beyond the mirror's focal point.
concave lens does not form a rel image and convex MIRROR does not form a real image
A concave mirror can form a real image when the object is located beyond the mirror's focal point (F) and the reflected light rays converge to a point in front of the mirror. This results in the formation of an inverted real image that can be projected onto a screen.
A convex mirror always forms a virtual image, meaning that the light rays appear to be coming from a point behind the mirror. Thus, a real image is never formed by a convex mirror.