Will the image produced by light passing through more than one lens always be upside down? Explain why.
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No, it is not necessary that the image produced by light passing through more than one lens always be upside down
Microscope images are inverted because they're formed by convex lenses.
Convex lenses always produce inverted images. Because of the geometry of the lens and the tendency of light to bend more when it passes through denser media (like glass, for example), the rays of light "criss-cross" on their way to your eye
but if the light passed through the concave lens , it is not necssary the image is upside down
Will the image produced by light passing through more than one lens always be upside down?...
2. Explain why light rays converge when passing through a double convex lens by describing the paths of three light rays; one along the optic axis and the other two parallel to the optic axis. 3. What happens to the image if half a converging lens is covered? Explain why this occurs. 4. What are the conditions necessary to form a virtual image using a converging lens? 5. What type of lens is used in a magnifying glass? Explain how...
1. Why is it not possible for total internal reflection to occur when a light beam is passing from a medium of low optical density (air) into a medium of higher optical density ( glass or water). Explain fully. 2. When light is incident on an interface between two materials, the angle of the refracted ray depends on the wavelength, but the angle of the reflected ray does not. Why should this be true? Explain fully. 3. Sunlight and star...
1. The most common lens is a spherical lens. Describe the shape of a spherical lens. 2. Explain why light rays converge when passing through a double convex lens by describing the paths of three light rays; one along the optic axis and the other two parallel to the optic axis. 3. What happens to the image if half a converging lens is covered? Explain why this occurs. 4. What are the conditions necessary to form a virtual image using...
A fly appears to be upside down and twice its actual size when viewed through a converging lens with a focal length of 5.0 cm. How far is the fly from the lens?
A fly appears to be upside down and 6.5 times its actual size when viewed through a converging lens with a focal length of 44 cm. How far is the fly from the lens?
A fly appears to be upside down and 9.5 times its actual size when viewed through a converging lens with a focal length of 44 cm. How far is the fly from the lens?
A fly appears to be upside down and six times Its actual size when viewed through a converging lens with a focal length of 6.2 cm. How far is the fly from the lens? cm
Which of the following is correct? (a) When passing through air, blue light travels slower than green light (b) When passing through water, violet light travels slower than red light (c)When passing through air, green light travels faster than violet light (d) When passing through glass, red light travels slower than violet light Choose between (a), (b), (e) and (d)!
Prelab Name Class Section The image of an object through a lens can be found as the intersection of two light rays starting from the tip of the object. Any two rays can do. Two convenient ones are: 1) the ray passing through the center of the lens, as it does not get deflected; 2) the ray perpendicular to the axis of the lens, as it gets deflected through the focus of the lens. The attached drawing shows an object...
A negative or diverging thin lens has a focal length of 10 cm. a) An object is placed 30 cm from the lens. Find the image distance and explain if the image is real or virtual. b) Explain if the image is upright or upside down and if it is smaller or larger than the object.