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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.
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 is an instrument that makes objects appear closer?
A magnifying glass is an instrument that makes objects appear closer by using a lens to magnify the image.
What is the unit of a magnifying box?
The unit of a magnifying box is typically measured in magnification power, which is represented as "X" (e.g., 2X, 5X). This indicates how much closer an object will appear when viewed through the magnifying box compared to the naked eye.
Water as a magnifying glass?
Water can act as a magnifying glass by bending light rays that pass through it, causing objects to appear larger or closer. This effect is similar to how a traditional magnifying glass works by refracting light to create a magnified image.
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.
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 is 268 is closer to?
To the nearest ten it is 270.To the nearest hundred it is 300.
What is an instrument that makes objects appear closer?
A magnifying glass is an instrument that makes objects appear closer by using a lens to magnify the image.
What is the unit of a magnifying box?
The unit of a magnifying box is typically measured in magnification power, which is represented as "X" (e.g., 2X, 5X). This indicates how much closer an object will appear when viewed through the magnifying box compared to the naked eye.
Water as a magnifying glass?
Water can act as a magnifying glass by bending light rays that pass through it, causing objects to appear larger or closer. This effect is similar to how a traditional magnifying glass works by refracting light to create a magnified image.
What enlarges details of objects?
A magnifying glass or a microscope can be used to enlarge details of objects by providing a closer and more detailed view. These tools work by magnifying the image of the object being observed.
What is the magnifying parts?
The magnifying parts of a magnifying glass or microscope are typically a convex lens that bends light rays to converge at a focal point, making objects appear larger when viewed through the lens. By magnifying the image of an object, these parts allow for closer examination of details that are not easily visible to the naked eye.
What happens to images that are closer to a concave mirror than the focal length?
The image is upright and magnified/enlarged.
Why are objects that are underwater appear closer than they are?
Light refracting through the water acts like a magnifying glass.
As an object moves closer to a convex lens what happens to the size and orientation of the image?
As an object moves closer to a convex lens, the size of the image increases. The orientation of the image remains the same, which means it is still upright if the object is upright and inverted if the object is inverted.
Where would an object located relative to converging lens to produce a virtual image?
An object located beyond the focal point of a converging lens will produce a virtual image on the same side as the object. This virtual image will be upright, magnified, and appear to be located closer to the lens than the object itself.
