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Place an object between a magnifying lens and its focal point the image is?
Place an object between a magnifying lens and its focal point. The image is right side up and larger than the object
Where should a magnifying glass be placed to produce an e large and upright image closer or nearest to object?
To produce a large and upright image that is closer to the object, the magnifying glass should be placed between the object and its focal point. This setup allows for the image to be magnified and appear upright when viewed through the magnifying glass.
What is the magnifying power?
The magnifying power refers to how many times larger an object appears when viewed through a magnifying lens or instrument. It is calculated by dividing the focal length of the lens by the focal length when the object is at the near point of distinct vision (25 cm). This ratio determines the magnification level of the lens.
When using a convex lens as a simple magnifying Glass the object must be at what distance?
The object should be placed at the focal point of the lens or slightly closer for a convex lens to be used as a simple magnifying glass. Placing the object at the focal point will produce a virtual and enlarged image that is easier to view and focus on.
What determines the characteristics of images seen through a magnifying glass?
The characteristics of images seen through a magnifying glass are determined by the magnification power of the lens, the distance between the lens and the object being viewed, and the focal length of the lens. These factors affect the size, clarity, and distortion of the image.
Place an object between a magnifying lens and its focal point the image is?
Place an object between a magnifying lens and its focal point. The image is right side up and larger than the object
Where should a magnifying glass be placed to produce an e large and upright image closer or nearest to object?
To produce a large and upright image that is closer to the object, the magnifying glass should be placed between the object and its focal point. This setup allows for the image to be magnified and appear upright when viewed through the magnifying glass.
What is the magnifying power?
The magnifying power refers to how many times larger an object appears when viewed through a magnifying lens or instrument. It is calculated by dividing the focal length of the lens by the focal length when the object is at the near point of distinct vision (25 cm). This ratio determines the magnification level of the lens.
When using a convex lens as a simple magnifying Glass the object must be at what distance?
The object should be placed at the focal point of the lens or slightly closer for a convex lens to be used as a simple magnifying glass. Placing the object at the focal point will produce a virtual and enlarged image that is easier to view and focus on.
What determines the characteristics of images seen through a magnifying glass?
The characteristics of images seen through a magnifying glass are determined by the magnification power of the lens, the distance between the lens and the object being viewed, and the focal length of the lens. These factors affect the size, clarity, and distortion of the image.
Magnifying power of simple microscope can be increased by?
Increasing the focal length of the lens or using a lens with a shorter focal length can increase the magnifying power of a simple microscope. Using a lens with a higher refractive index can also enhance the magnification. Additionally, increasing the distance between the lens and the object being observed can improve the magnification.
Is a convex lens used as magnifying glass?
Yes, a convex lens can be used as a magnifying glass as it converges light rays to form an enlarged and upright image of an object placed closer to the lens. The magnification produced by a convex lens depends on its focal length and the distance between the lens and the object.
What mirror is used in a magnifying mirror?
we can use convex lens(having tapered ends) for that. but the magnifying capability depends on the power the lens. A magnifying glass works by creating a magnified virtual image of an object behind the lens. The distance between the lens and the object must be shorter than the focal lenght of the lens for this to occur. Otherwise, the image appears smaller and inverted, and can be used to project images onto surfaces.
What is the focal length of a magnifying glass and how does it affect the magnification of objects when viewed through it?
The focal length of a magnifying glass is the distance between the lens and the point where light rays converge to form a clear image. A shorter focal length results in higher magnification, making objects appear larger when viewed through the magnifying glass. Conversely, a longer focal length will result in lower magnification.
What should be the position of an object relative to biconvex lens so that it bahaves like a magnifying glass?
The object should be placed slightly inside the focal point of the lens. This will create a real and magnified image on the other side of the lens, making it behave like a magnifying glass. Adjusting the distance between the object and the lens can further fine-tune the magnification.
What is the lens focal length formula used to calculate the focal length of a camera lens?
The lens focal length formula used to calculate the focal length of a camera lens is: Focal Length (Distance between lens and image sensor) / (1 (Distance between lens and object) / (Distance between lens and object))
How is object positioned with respect to convex lens?
An object positioned beyond the focal point of a convex lens will produce a real and inverted image between the focal point and the lens. An object positioned at the focal point will produce no image. An object positioned between the focal point and the lens will produce a virtual and upright image beyond the lens.
