A concave mirror can give a real or virtual magnified image depending on the object's position relative to the mirror's focal point. If the object is beyond the focal point, a real and magnified image is produced; if the object is within the focal point, a virtual and magnified image is produced.
Mirrors that gives an enlarged image are basically a regular mirror just it has magnified glass.; Actually, it is a concave mirror, not a convex mirror, that is used to give an enlarged image.
A concave mirror can give a virtual and larger image than the object when the object is placed within the focal length of the mirror. When the object is placed beyond the focal point, a real, inverted, smaller image is formed.
To construct an image using a spherical mirror, at least two rays are needed. One ray should be parallel to the mirror's principal axis and reflected through the focal point, while the other should pass through the focal point and reflect parallel to the principal axis. These two rays will help determine the location and nature of the image formed by the mirror.
Mirrors reflect light and create an image through the reflection of light rays. When light rays bounce off a mirror, they maintain the same size but change direction. This change in direction creates the illusion of an enlarged image because the brain perceives the reflected light as coming from a larger object.
A mirror gives specular reflection, which is the reflection of light in such a way that an incident ray of light is reflected at an equal angle to the normal. This type of reflection creates a clear and sharp image.
Mirrors that gives an enlarged image are basically a regular mirror just it has magnified glass.; Actually, it is a concave mirror, not a convex mirror, that is used to give an enlarged image.
Concave mirrors are used to give an erect and enlarged image of an object. The image formed is virtual, upright, and magnified when the object is placed between the focal point and the mirror's surface.
Light will bounce off the surface of a polished mirror in the same angle of incidence, but the way you see it, it's as if the image formed behind the mirror surface.
A 'mirror image'
A concave mirror can give a virtual and larger image than the object when the object is placed within the focal length of the mirror. When the object is placed beyond the focal point, a real, inverted, smaller image is formed.
A microscope gives a microscopic image of what you have under it. This happens because the lense is curved
The image of the star will be 67.5 cm from the mirror because focal length is the raidus of curvature multiplied by 2 or (2)(C). So, therefore, 150 / 2 will give the focal length which would also be the answer.
To construct an image using a spherical mirror, at least two rays are needed. One ray should be parallel to the mirror's principal axis and reflected through the focal point, while the other should pass through the focal point and reflect parallel to the principal axis. These two rays will help determine the location and nature of the image formed by the mirror.
A telescope eyepiece usually has 2 lenses in an astronomical telescope, and it is designed to give a magnified view of the virtual image produced at the focal point of the main lens.
okay i have a question . do you mean using one or two mirrors ?
Mirrors reflect light and create an image through the reflection of light rays. When light rays bounce off a mirror, they maintain the same size but change direction. This change in direction creates the illusion of an enlarged image because the brain perceives the reflected light as coming from a larger object.
The word mirror can be used multiple ways.Mirror (noun): an object that a reflects the object facing it off of itself to create a picture that is exactly the same as what is facing it. The mirror was broken when the men placed the heavy box on top of it.Mirror (verb): to give off an image exactly the same as what is facing it. The lake almost mirrored the night sky, though the water distorted the image from being exact.Mirror (adjective): exactly the same; representing a mirror A line of symmetry divides an image into two mirror images of each other.