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How does changing the shape of mirror affect the shape and position of an image?
Changing the shape of the mirror can change the size and orientation of the image produced. For example, a concave mirror can create either an enlarged or reduced image depending on the object's distance from the mirror. The position of the image can also be affected, such as moving closer or farther away from the mirror.
Is there ever a position where an object will not have an image produced in a convex mirror?
This will depend entirely on the geometry of the convex mirror. Only if the mirror is a spherical shell will the answer be "no."
How will the position and intensity of image will be affected if the lower half of the mirror is painted?
If the lower half of the mirror is painted, the image will only be visible in the upper half of the mirror. The intensity of the image will remain the same in the visible portion of the mirror, but it will be absent in the painted lower half. The position of the image will not be affected, as it will still appear at the same distance behind the mirror as the object is in front of it.
How do you calculate the position of the image formed?
To calculate the position of the image formed by a lens or mirror, you need to use the thin lens or mirror formula: 1/f = 1/do + 1/di, where f is the focal length of the lens or mirror, do is the object distance, and di is the image distance. Once you have the values for the focal length and object distance, you can solve for the image distance to determine the position of the image formed.
How do you calculate image position?
To calculate the position of an image formed by a lens or mirror, you can use the thin lens equation (1/f = 1/do + 1/di) where f is the focal length, do is the object distance, and di is the image distance. By solving this equation, you can determine the image position relative to the lens or mirror.
How does changing the shape of mirror affect the shape and position of an image?
Changing the shape of the mirror can change the size and orientation of the image produced. For example, a concave mirror can create either an enlarged or reduced image depending on the object's distance from the mirror. The position of the image can also be affected, such as moving closer or farther away from the mirror.
Is there ever a position where an object will not have an image produced in a convex mirror?
This will depend entirely on the geometry of the convex mirror. Only if the mirror is a spherical shell will the answer be "no."
How will the position and intensity of image will be affected if the lower half of the mirror is painted?
If the lower half of the mirror is painted, the image will only be visible in the upper half of the mirror. The intensity of the image will remain the same in the visible portion of the mirror, but it will be absent in the painted lower half. The position of the image will not be affected, as it will still appear at the same distance behind the mirror as the object is in front of it.
How do you calculate the position of the image formed?
To calculate the position of the image formed by a lens or mirror, you need to use the thin lens or mirror formula: 1/f = 1/do + 1/di, where f is the focal length of the lens or mirror, do is the object distance, and di is the image distance. Once you have the values for the focal length and object distance, you can solve for the image distance to determine the position of the image formed.
How do you calculate image position?
To calculate the position of an image formed by a lens or mirror, you can use the thin lens equation (1/f = 1/do + 1/di) where f is the focal length, do is the object distance, and di is the image distance. By solving this equation, you can determine the image position relative to the lens or mirror.
How do you calculate image position when given magnification of ian image by a concave miarror?
To calculate the image position when given magnification by a concave mirror, you can use the mirror equation: 1/f = 1/d_o + 1/d_i, where f is the focal length of the mirror, d_o is the object distance, and d_i is the image distance. Magnification, M, is also given by -d_i/d_o. By substituting the values of magnification and focal length into the mirror equation, you can solve for the image distance and then determine the image position.
What is a change in the position of a figure that gives the mirror image of the figure?
Reflection.
How can you create mirror image of a given object?
To create a mirror image of an object, place a mirror facing the object and position it so that the reflection appears in the mirror. The mirror will show a reversed image of the object, effectively creating a mirror image. Alternatively, many software programs and apps offer tools to digitally create mirror images of objects.
Who Describe the images produced by a plane mirror a concave mirror and convex mirror?
A plane mirror produces an upright and laterally inverted image that is the same size as the object. A concave mirror produces a real or virtual, inverted or upright image that can be larger or smaller than the object depending on the object's position relative to the mirror. A convex mirror produces a virtual, upright, and smaller image compared to the object, regardless of the object's position relative to the mirror.
How is an image created in a concave mirror?
In a concave mirror, an image is created when light rays that strike the mirror are reflected and converge to a focal point in front of the mirror. This forms either a real or virtual image depending on the position of the object relative to the focal point. The image can be magnified or diminished based on the distance of the object from the mirror.
How does changing the shape of the mirror affect the shape and position of an image?
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Does a concave mirror show a virtual or real image?
A concave mirror can show both virtual and real images. The type of image produced depends on the position of the object relative to the focal point of the mirror.
