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Is the distance from the object to the mirror is less than the apparent from the image?
The distance from the object to the mirror is equal to the distance from the image to the mirror in a plane mirror. The image appears to be as far behind the mirror as the object is in front of it, so the apparent distance from the image to the mirror is equal to the actual distance from the object to the mirror.
What else can I help you with?
What image do you see in a mirror that results from the apparent path of light rays?
The image you see in a mirror is a virtual image that appears to be behind the mirror at the same distance as the object in front of the mirror. It is a reflection of the object, with the light rays bouncing off the mirror in a way that creates the illusion of an image appearing to come from the mirror itself.
With a plane mirror what would be the relationship between di the image distance and do the object distance?
In a plane mirror, the image distance (di) is equal to the object distance (do). The image formed is virtual, upright, and the same size as the object, and it appears behind the mirror at the same distance as the object in front of the mirror.
What happens to image if it moves closer to plane mirror?
If an image moves closer to a plane mirror, the distance between the object and the mirror stays the same while the image moves towards the mirror. As the image gets closer to the mirror, it appears to move further away from the viewer. The size of the image remains the same, but its apparent distance changes.
What is the distance between the image and the plane mirror if the object is at 15m?
The distance between the image and the plane mirror is the same as the distance between the object and the mirror. Therefore, if the object is 15m away from the mirror, the image will also be 15m behind the mirror.
Images formed by a plane mirror?
A plane mirror forms 1 virtual image and no real image. The virtual image is behind the mirror, at the same distance as the object in front of the mirror, erect, in mirror image left-right.
What is the object image distance relationship for a flat mirror?
when dealing with a flat mirror object-distance and image-distance should be equal.
How does the distance of the object compare with the distance of the image from the plane mirror?
The distance of the object from the mirror line should equal the distance of the image from the mirror line.
What image do you see in a mirror that results from the apparent path of light rays?
The image you see in a mirror is a virtual image that appears to be behind the mirror at the same distance as the object in front of the mirror. It is a reflection of the object, with the light rays bouncing off the mirror in a way that creates the illusion of an image appearing to come from the mirror itself.
With a plane mirror what would be the relationship between di the image distance and do the object distance?
In a plane mirror, the image distance (di) is equal to the object distance (do). The image formed is virtual, upright, and the same size as the object, and it appears behind the mirror at the same distance as the object in front of the mirror.
What happens to image if it moves closer to plane mirror?
If an image moves closer to a plane mirror, the distance between the object and the mirror stays the same while the image moves towards the mirror. As the image gets closer to the mirror, it appears to move further away from the viewer. The size of the image remains the same, but its apparent distance changes.
What is the distance between the image and the plane mirror if the object is at 15m?
The distance between the image and the plane mirror is the same as the distance between the object and the mirror. Therefore, if the object is 15m away from the mirror, the image will also be 15m behind the mirror.
Images formed by a plane mirror?
A plane mirror forms 1 virtual image and no real image. The virtual image is behind the mirror, at the same distance as the object in front of the mirror, erect, in mirror image left-right.
What is the Magnification equation for concave mirror?
The magnification equation for a concave mirror is given by the formula: M = - (image distance) / (object distance), where M is the magnification, image distance is the distance from the mirror to the image, and object distance is the distance from the mirror to the object. Negative magnification indicates an inverted image.
To take a clear picture of an image in a mirror should the camera be focused on the image or the mirror?
An image in a mirror is a "virtual" image which takes on certain characteristics. One of these characteristics is that the apparent distance is equal to the distance from the observer to the mirror plus the distance from the mirror to the subject. If the observer and subject are the same, then the apparent distance is twice that of the subject to the mirror. If the observer is 3 feet from the mirror and the subject is 20 feet away, the apparent distance is 23 feet. If you focus on the subject and have distance markings on your lens, you can prove this to yourself.
An object 5 millimeter high is located 15 millimeter in front of a plane mirror How far from the mirror is the image located?
The distance between the object and mirror is 15 mm. The distance between the image and mirror is 15 mm. Therefore, the distance between the image and object is 15 mm plus 15 mm which equals 30 mm.
State four characteristics of the image formed in a plane mirror?
1.Image distance= object distance 2.Size of the image = size of the object 3.image is laterally inverted 4.Image is always virtual & erect
The apparent size of an object is determined by the size of its image on?
The apparent size of an object is determined by the size of its image on the retina of the eye. It is influenced by factors such as the distance between the object and the eye, the focal length of the lens or mirror creating the image, and the size of the object itself. The brain processes this information to perceive the object's size.
