Figure P23.59 shows a converging lens with radii R1 = 9.00 cm and R2 = –11.00 cm, in front of a concave spherical mirror of radius R = 8.00 cm. The focal points (F1 and F2) for the thin lens and the center of curvature (C) of the mirror are also shown. (a) If the focal points F1 and F2 are 5.00 cm from the vertex of the thin lens, what is the index of refraction of the lens? (b) If the lens and mirror are 20.0 cm apart and an object is placed 8.00 cm to the left of the lens, what is the position of the final image and its magnification as seen by the eye in the figure? (c) Is the final image inverted or upright? Explain.FIGURE P23.59

Q: Consider a set of two lenses. The first has focal length +.25 m. The second is located .80 m behind…

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Q: An upright object is placed 50 cm from a concave mirror of radius 60 cm. What is the distance of the…

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Q: A convex mirror has a focal length of 240.0 cm. A 12.0-cm-tallobject is located 40.0 cm in front of…

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Q: A convex spherical mirror, whose focal length has a magnitude of 16.4 cm, is to form an image 13.0…

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Q: A convex spherical mirror, whose focal length has a magnitude of 15.2 cm, is to form an image 11.4…

A: Given data The focal length of the mirror is given as f = 15.2 cm. The image distance is given as v…

Q: Q#01: An image is formed with the help of the concave mirror at the distance of

A: Given: Image distance v=3.00m Object distance u=10.00cm=0.10m

Q: A virtual image is formed 24.5 cm from a concave mirror having a radius of curvature of 30.0 cm. (a)…

A: Given v=24.5 cm      R=30 cmf=R/2=15 cm and since mirror is concave , f=-15 cm the formula we will…

Q: A convex spherical mirror, whose focal length has a magnitude of 29.0 cm, is to form an image 9.0 cm…

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Q: An object is 47.5 cm tall. The image is 38.6 cm tall, and 14.8 cm from the mirror. How far is the…

A: Given that, The height of the object hob=47.5 cm The height of the image him=38.6 cmThe image…

Q: A 1.85-m-tall person stands 7.50 m in front of a large, concave spherical mirror having a radius of…

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Q: Several students designed an experiment to study a mirror and determine its type and its radius of…

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Q: A convex spherical mirror, whose focal length has a magnitude of 16.4 cm, is to form an image 10.4…

A: focal length (f) of convex mirror = -16.4 cm image distance (i) = - 10.4 cm

Q: A 3.25 cm high object is placed at 28 cm in front of a convex mirror. Its image was formed 14 cm…

A: Given that,Height of the object, h0=3.25 cmDistance of the object from the mirror, u=-28.0…

Q: The image of the coin in the figure is magnified by a factor of M = 2.5 times, and is a distance d =…

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Q: An observer to the right of the mirror–lens combinationshown in Figure P23.62 sees two real images…

A: Formula to calculate the image distance is,

Q: virtual image is formed 21.0 cm from a concave mirror having a radius of curvature of 39.5 cm. (a)…

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Q: A spherical mirror of focal length f produces an upward image (h'> 0) of size one third that of an…

A: The focal length of the mirror is related by:

Q: The Sun subtends an angle of 0.533° at a distance of 1 astronomical unit, which is 1.496 ✕ 1011 m,…

A: The subtended angle by the Sun is, θ=0.533°. The radius of a concave spherical mirror is, R=2.70 m.

Q: An object is placed 15 cm in front of a spherical lens. The image produced is located at -25 cm and…

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Q: A virtual image is formed 24.0 cm from a concave mirror having a radius of curvature of 31.5 cm. (a)…

A: Given Image distance = 24.0 cm Image is virtual Radius of curvature = 31.5 cm We have to calculate…

Q: A convex spherical mirror, whose focal length has a magnitude of 15.2 cm, is to form an image 12.2…

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Q: A man is 1.7 m tall and can just see his image in a vertical plane mirror 3.0 m away. His eyes are…

A: Required : The location of the mirror for full image.

Q: (a) Where should the object be placed? cm in front of the mirror (b) What is the magnification of…

A: Given data: Focal length, f=15.2 cm Image distance, v=12 cm

Q: A virtual image is formed 21.0 cm from a concave mirror having a radius of curvature of 39.5 cm. (a)…

A: The mirror formula is 1f=1v+1u…

Q: A lens maker has to grind a convex lens with a focal length of 80.0 cm. The glass used for the lens…

A: Given  Focal length of lens=80cm Refractive index of glass=1.5 Radius of curvature of front…

Q: A convex spherical mirror, whose focal length has a magnitude of 17.0 cm, is to form an image 11.2…

A: Given that,focal length, f=17 cmimage distance, v=11.2 cm

Q: A doctor wishes to inspect a patient's tooth with a magnifying mirror. She places the mirror 1.00 cm…

A: The mirror equation is given as  1f=1v+1uhere v is image distance u is object distanceUsing sign…

Q: A convex spherical mirror, whose focal length has a magnitude of 15.2 cm, is to form an image 11.0…

A: Using mirror formula Where v = Image position, u = Object position, f = focal length of mirror…

Q: C F2 F1 C Cag g

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Q: A convex mirror with a radius of curvature of -29.0 cm is used to form an image of an arrow that is…

A: We have a convex mirror of radius of curvature R=29 cm (focal length f=R/2=14.5 cm) in front of…

Q: An object 1.6 cm high is held 3.15 cm from a person’s cornea, and its reflected image is measured to…

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Q: a converging lens is in front of a concave spherical mirror of radius R = 8.90 cm. The focal points…

A: See below

Q: A convex mirror has a radius of curvature of 46.7 cm. A 11.5-cm-tall object is placed in front of…

A: Given, Radius of curvature = 46.7 cm Height of the objectho   = 11.5 cm Height of the imagehi   =…

Q: Problem 4: The human eye can be approximated by a two-lens optical system. Light enters the eye and…

A: Given, Focal length of cornea,f1=4.1666 cm Focal length of crystalline lens,f2=16 cm Distance of…

Q: A convex mirror with a radius of curvature of −30.0 cm is used to form an image of an arrow that is…

A: The u-v-f relation for a spherical mirror (concave/convex) is 1v+1u=1f      ....(1) The…

Q: A virtual image is formed 21.0 cm from a concave mirror having a radius of curvature of 35.0 cm.…

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Q: You are designing a lens to be made of glass with index of refraction 1.70. The first surface (the…

A: Given: Index of refraction, n=1.70 Radius of curvature of first surface, R1=28 cm Focal length of…

Q: A salesperson uses a lens with a focal length of 7.05 cm as a magnifying glass. To optimize her view…

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Refraction of Light

Refraction is a change in the direction of light rays when they travel from one medium to another. It is the bending of light when it goes through different media.

Angle of Refraction

Light is considered by many scientists to have dual nature, both particle nature and wave nature. First, Particle nature is one in which we consider a stream of packets of energy called photons. Second, Wave nature is considering light as electromagnetic radiation whereas part of it is perceived by humans. Visible spectrum defined by humans lies in a range of 400 to 700 nm wavelengths.

Index of Refraction of Diamond

Diamond, the world’s hardest naturally occurring material and mineral known, is a solid form of the element carbon. The atoms are arranged in a crystal structure called diamond cubic. They exist in a huge variety of colours. Also, they are one of the best conductors of heat and have a very high melting point.