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The object should be placed 10 cm away from the pole of the mirror to form a real image with a size exactly one fourth the size of the object. This is achieved using the mirror formula: 1/f = 1/v + 1/u, where u is the object distance, v is the image distance, and f is the focal length of the mirror.
What else can I help you with?
Where must an object to be located for a converging mirror to produce a virtual image?
if the focal length is greater than the object distance from the lens
Is a hubcap a converging spherical mirror?
No, a hubcap is not a converging spherical mirror. A hubcap is a protective covering for the center of a vehicle's wheel, while a converging spherical mirror is a mirror that curves inwards to focus light rays at a point.
Where must you stand to see an upside down image of yourself in a converging mirror?
You must stand closer to the converging mirror than its focal point. This position will allow the converging mirror to produce an inverted image of yourself.
Will focal length of a concave mirror would increase decrease stay the same if the mirror were made flatter?
If a concave mirror is made flatter, its focal length will increase. This is because a flatter mirror has a larger radius of curvature, resulting in light rays converging at a point farther away from the mirror.
Where must an object to be located for a converging mirror to produce a real image?
The object must be located beyond the focal point of the mirror for a converging mirror to produce a real image.
Why do we use concave mirror as converging mirror?
why do we use concave mirror as converging mirror
Where must an object to be located for a converging mirror to produce a virtual image?
if the focal length is greater than the object distance from the lens
Is a hubcap a converging spherical mirror?
No, a hubcap is not a converging spherical mirror. A hubcap is a protective covering for the center of a vehicle's wheel, while a converging spherical mirror is a mirror that curves inwards to focus light rays at a point.
Where is the only location where a converging mirror will not produce an image?
When the object lies within its focal length then no real image can be produced
Where must you stand to see an upside down image of yourself in a converging mirror?
You must stand closer to the converging mirror than its focal point. This position will allow the converging mirror to produce an inverted image of yourself.
Will focal length of a concave mirror would increase decrease stay the same if the mirror were made flatter?
If a concave mirror is made flatter, its focal length will increase. This is because a flatter mirror has a larger radius of curvature, resulting in light rays converging at a point farther away from the mirror.
A converging mirror has a focal length of 20cm Where should an object be placed so that its virtual image will be twice as tall as the object?
10cm
Where must an object to be located for a converging mirror to produce a real image?
The object must be located beyond the focal point of the mirror for a converging mirror to produce a real image.
Which mirror is called converging mirror?
A converging mirror is also known as a concave mirror. It is curved inward, causing light rays that strike it to converge towards a focal point. This type of mirror is often used in reflective telescopes and makeup mirrors.
What is the only location a converging mirror will not produce an image?
A converging mirror will not produce a real image if the object is placed between the focal point and the mirror. In this case, the mirror will produce a virtual image on the same side as the object.
What happens to the image in a concave mirror when an object is closer to the mirror than one focal length?
When an object is placed closer to a concave mirror than its focal length, the image formed is virtual, upright, and magnified. The image is located behind the mirror, and the rays of light appear to diverge from a point behind the mirror rather than converging at a real focal point.
What is converging mirror?
A converging mirror is a type of mirror that bulges outward and curves inward, also known as a concave mirror. These mirrors are curved inward and can converge light rays to a single focal point. They are commonly used in telescopes, microscopes, and makeup mirrors.
