 25.1COQ: Because of diffraction, a light microscope has a useful magnificati...
 25.1MCQ: The image of a nearby object formed by a camera lens is(a) at the l...
 25.1P: (I) A properly exposed photograph is taken at 16 and What lens open...
 25.1Q: Why must a camera lens be moved farther from the sensor or film to ...
 25.1SL: Digital cameras may offer an optical zoom or a digital zoom. An opt...
 25.2MCQ: What is a megapixel in a digital camera?(a) A large spot on the det...
 25.2Q: Why is the depth of field greater, and the image sharper, when a ca...
 25.2P: (I) A television camera lens has a 17cm focal length and a lens di...
 25.2SL: Which of the following statements is true? (See Section 25–2.) Writ...
 25.3MCQ: When a nearsighted person looks at a distant object through her gla...
 25.3P: (I) A 65mmfocallength lens has fstops ranging from f/1.4 to f/2...
 25.3Q: Redo Examples 25–3 and 25–4 assuming the sensor has only 6MP. Expla...
 25.3SL: Redo Examples 25–3 and 25–4 assuming the sensor has only 6MP. Expla...
 25.4MCQ: If the distance from your eye’s lens to the retina is shorter than ...
 25.4P: (I) A light meter reports that a camera setting of at f/5.6 will gi...
 25.4Q: Why are bifocals needed mainly by older persons and not generally b...
 25.4SL: Describe at least four advantages of using mirrors rather than lens...
 25.5MCQ: The image produced on the retina of the eye is _____ compared to th...
 25.5P: (II) For a camera equipped with a 55mmfocallength lens, what is ...
 25.5Q: Will a nearsighted person who wears corrective lenses in her glasse...
 25.5SL: An astronomical telescope, Fig. 25–20, produces an inverted image. ...
 25.6MCQ: How do eyeglasses help a nearsighted person see more clearly?(a) Di...
 25.6P: (II) A nature photographer wishes to shoot a 34mtall tree from a ...
 25.6Q: You can tell whether people are nearsighted or farsighted by lookin...
 25.6SL: Mizar, the second star from the end of the Big Dipper’s handle, app...
 25.7MCQ: When you closely examine an object through a magnifying glass, the ...
 25.7P: (II) A 200mmfocallength lens can be adjusted so that it is 200.0...
 25.7Q: In attempting to discern distant details, people will sometimes squ...
 25.8MCQ: It would be impossible to build a microscope that could use visible...
 25.8P: (II) How large is the image of the Sun on film used in a camera wit...
 25.8Q: Is the image formed on the retina of the human eye upright or inver...
 25.9MCQ: Why aren’t whitelight microscopes made with a magnificationof 3000...
 25.9P: (II) If a 135mm telephoto lens is designed to cover object distanc...
 25.9Q: The human eye is much like a camera—yet, when a camera shutter is l...
 25.10MCQ: The resolving power of a microscope is greatest when the object bei...
 25.10P: (III) Show that for objects very far away (assume infinity), the ma...
 25.10Q: Reading glasses use converging lenses. A simple magnifier is also a...
 25.11MCQ: Which of the following statements is true?(a) A largerdiameter len...
 25.11P: (I) A human eyeball is about 2.0 cm long and the pupil has a maximu...
 25.11Q: Nearsighted people often look over (or under) their glasses when th...
 25.12MCQ: While you are photographing a dog, it begins to move away. What mus...
 25.12P: (II) A person struggles to read by holding a book at arm’s length, ...
 25.12Q: Spherical aberration in a thin lens is minimized if rays are bent e...
 25.13MCQ: A converging lens, like the type used in a magnifying glass,(a) alw...
 25.13P: (II) Reading glasses of what power are needed for a person whose ne...
 25.13Q: Explain why chromatic aberration occurs for thin lenses but not for...
 25.14P: (II) An eye is corrected by a 5.50D lens, 2.0 cm from the eye. (a...
 25.14Q: Inexpensive microscopes for children’s use usually produce images t...
 25.15P: (II) A person’s right eye can see objects clearly only if they are ...
 25.15Q: Which aberrations present in a simple lens are not present (or are ...
 25.16P: (II) About how much longer is the nearsighted eye in Example 25–6 t...
 25.16Q: By what factor can you improve resolution, other things being equal...
 25.17P: (II) A person has a far point of 14 cm. What power glasses would co...
 25.17Q: Atoms have diameters of about Can visible light be used to “see” an...
 25.18P: (II) One lens of a nearsighted person’s eyeglasses has a focal leng...
 25.18Q: Which color of visible light would give the best resolution in a mi...
 25.19P: (II) What is the focal length of the eye–lens system when viewing a...
 25.19Q: For both converging and diverging lenses, discuss how the focal len...
 25.20P: (III) The closely packed cones in the fovea of the eye have a diame...
 25.20Q: The 300meter radiotelescope in Arecibo, Puerto Rico (Fig. 25–33), ...
 25.21P: (III) A nearsighted person has near and far points of 10.6 and 20.0...
 25.22P: (I) What is the focal length of a magnifying glass of 3.2 X magnifi...
 25.23P: (I) What is the magnification of a lens used with a relaxed eye if ...
 25.24P: (I) A magnifier is rated at 3.5 X for a normal eye focusing on an i...
 25.25EA: If the lens of Example 25–1 is 50.4 mm from the film or sensor, wha...
 25.25EB: The criterion of 0.030 mm as the diameter of a circle of confusion ...
 25.25EC: What power of contact lens is needed for an eye to see distant obje...
 25.25ED: A 40 X telescope has a 1.2cm focal length eyepiece. What is the fo...
 25.25EE: Someone claims a spy satellite camera can see 3cmhigh newspaper h...
 25.25EF: When Xrays of wavelength 0.10 X 109 m are scattered from a sodium...
 25.25EG: (II) Sherlock Holmes is using an 8.20cmfocallength lens as his m...
 25.25P: (II) Sherlock Holmes is using an 8.20cmfocallength lens as his m...
 25.26P: (II) A small insect is placed 4.85 cm from a +5.00cm –focallength...
 25.27P: (II) A 3.80mmwide bolt is viewed with a 9.60cmfocallength lens....
 25.28P: (II) A magnifying glass with a focal length of 9.2 cm is used to re...
 25.29P: (III) A writer uses a converging lens of focal length F =12 cm as a...
 25.30P: (III) A magnifying glass is rated at 3.0 X for a normal eye that is...
 25.31P: (I) What is the magnification of an astronomical telescope whose ob...
 25.32P: (I) The overall magnification of an astronomical telescope is desir...
 25.33P: (II) A 7.0 X binocular has 3.5cmfocallength eyepieces. What is t...
 25.34P: (II) An astronomical telescope has an objective with focal length 7...
 25.35P: (II) An astronomical telescope has its two lenses spaced 82.0 cm ap...
 25.36P: (II) A Galilean telescope adjusted for a relaxed eye is 36.8 cm lon...
 25.37P: (II) What is the magnifying power of an astronomical telescope usin...
 25.38P: (II) The Moon’s image appears to be magnified 1.50 X by a reflectin...
 25.39P: (II) A 120 X astronomical telescope is adjusted for a relaxed eye w...
 25.40P: (II) An astronomical telescope longer than about 50 cm is not easy ...
 25.41P: (III) A reflecting telescope (Fig. 25–22b) has a radius of curvatur...
 25.42P: (III) A 6. 5 X pair of binoculars has an objective focal length of ...
 25.43P: (I) A microscope uses an eyepiece with a focal length of 1.70 cm. U...
 25.44P: (I) A 720 X microscope uses a 0.40cmfocallength objective lens. ...
 25.45P: (I) A 17cmlong microscope has an eyepiece with a focal length of ...
 25.46P: (II) A microscope has a 14.0 X eyepiece and a 60.0 X objective lens...
 25.47P: (II) Repeat assuming that the final image is located 25 cm from the...
 25.48P: (II) A microscope has a 1.8cmfocallength eyepiece and a 0.80cm ...
 25.49P: (II) The eyepiece of a compound microscope has a focal length of 2....
 25.50P: (III) An inexpensive instructional lab microscope allows the user t...
 25.51P: (II) An achromatic lens is made of two very thin lenses, placed in ...
 25.52P: (III) A planoconvex lens (Fig. 23–31a) has one flat surface and the...
 25.53P: (I) What is the angular resolution limit (degrees) set by diffracti...
 25.54P: (I) What is the resolving power of a microscope (? =550 nm) with a ...
 25.55P: (II) Two stars 18 lightyears away are barely resolved by a 66cm (...
 25.56P: (II) The nearest neighboring star to the Sun is about 4 lightyears...
 25.57P: (II) If you could shine a very powerful flashlight beam toward the ...
 25.58P: (II) The normal lens on a 35mm camera has a focal length of 50.0 m...
 25.59P: (III) Suppose that you wish to construct a telescope that can resol...
 25.60P: (II) Xrays of wavelength 0.138 nm fall on a crystal whose atoms, l...
 25.61P: (II) Firstorder Bragg diffraction is observed at 23.8° relative to...
 25.62P: (II) If Xray diffraction peaks corresponding to the first three or...
 25.63P: (II) (a) Suppose for a conventional Xray image that the Xray beam...
 25.64GP: A pinhole camera uses a tiny pinhole instead of a lens. Show, using...
 25.65GP: Suppose that a correct exposure is Under the same conditions, what ...
 25.66GP: An astronomical telescope has a magnification of 7.5*. If the two l...
 25.67GP: (a) How far away can a human eye distinguish two car headlights 2.0...
 25.68GP: Figure 25–48 was taken from the NIST Laboratory (National Institute...
 25.69GP: A 1.0cmdiameter lens with a focal length of 35 cm uses blue light...
 25.70GP: A movie star catches a reporter shooting pictures of her at home. S...
 25.71GP: As early morning passed toward midday, and the sunlight got more in...
 25.72GP: A child has a near point of 15 cm. What is the maximum magnificatio...
 25.73GP: A woman can see clearly with her right eye only when objects are be...
 25.74GP: What is the magnifying power of a lens used as a +4.0D magnifier? ...
 25.75GP: A physicist lost in the mountains tries to make a telescope using t...
 25.76Gp: A person with normal vision adjusts a microscope for a good image w...
 25.77GP: A 50yearold man uses +2.5 D lenses to read a newspaper 25 cm away...
 25.78GP: Two converging lenses, one with f=4.0 cm and the other with f=48 cm...
 25.79GP: An Xray tube operates at 95 kV with a current of 25 mA and nearly ...
 25.80GP: Human vision normally covers an angle of roughly 40° horizontally. ...
 25.81GP: The objective lens and the eyepiece of a telescope are spaced 85 cm...
 25.82GP: Sam purchases +3.50D eyeglasses which correct his faulty vision to...
 25.83GP: Spy planes fly at extremely high altitudes (25 km) to avoid interce...
 25.84GP: Xrays of wavelength 0.0973 nm are directed at an unknown crystal. ...
 25.85GP: The Hubble Space Telescope, with an objective diameter of 2.4 m, is...
 25.86GP: The Earth and Moon are separated by about 400 x 106 m. When Mars is...
 25.87GP: You want to design a spy satellite to photograph license plate numb...
 25.88GP: Given two 12cmfocallength lenses, you attempt to make a crude mi...
 25.89GP: The power of one lens in a pair of eyeglasses is 3.5 D. The radius...
 25.1: A properly exposed photograph is taken at 16 and What lens opening ...
 25.25.1: A properly exposed photograph is taken at 16 and What lens opening ...
 25.2: A television camera lens has a 17cm focal length and a lens diamet...
 25.25.2: A television camera lens has a 17cm focal length and a lens diamet...
 25.3: A 65mmfocallength lens has fstops ranging from 1.4 to 22. What ...
 25.25.3: A 65mmfocallength lens has fstops ranging from 1.4 to 22. What ...
 25.4: A light meter reports that a camera setting of at 5.6 will give a c...
 25.25.4: A light meter reports that a camera setting of at 5.6 will give a c...
 25.5: For a camera equipped with a 55mmfocallength lens, what is the o...
 25.25.5: For a camera equipped with a 55mmfocallength lens, what is the o...
 25.6: A nature photographer wishes to shoot a 34mtall tree from a dista...
 25.25.6: A nature photographer wishes to shoot a 34mtall tree from a dista...
 25.7: A 200mmfocallength lens can be adjusted so that it is 200.0 mm t...
 25.25.7: A 200mmfocallength lens can be adjusted so that it is 200.0 mm t...
 25.8: How large is the image of the Sun on film used in a camera with (a)...
 25.25.8: How large is the image of the Sun on film used in a camera with (a)...
 25.9: If a 135mm telephoto lens is designed to cover object distances fr...
 25.25.9: If a 135mm telephoto lens is designed to cover object distances fr...
 25.10: Show that for objects very far away (assume infinity), the magnific...
 25.25.10: Show that for objects very far away (assume infinity), the magnific...
 25.11: A human eyeball is about 2.0 cm long and the pupil has a maximum di...
 25.25.11: A human eyeball is about 2.0 cm long and the pupil has a maximum di...
 25.12: A person struggles to read by holding a book at arms length, a dist...
 25.25.12: A person struggles to read by holding a book at arms length, a dist...
 25.13: Reading glasses of what power are needed for a person whose near po...
 25.25.13: Reading glasses of what power are needed for a person whose near po...
 25.14: An eye is corrected by a lens, 2.0 cm from the eye. (a) Is this eye...
 25.25.14: An eye is corrected by a lens, 2.0 cm from the eye. (a) Is this eye...
 25.15: A persons right eye can see objects clearly only if they are betwee...
 25.25.15: A persons right eye can see objects clearly only if they are betwee...
 25.16: About how much longer is the nearsighted eye in Example 256 than th...
 25.25.16: About how much longer is the nearsighted eye in Example 256 than th...
 25.17: A person has a far point of 14 cm. What power glasses would correct...
 25.25.17: A person has a far point of 14 cm. What power glasses would correct...
 25.18: One lens of a nearsighted persons eyeglasses has a focal length of ...
 25.25.18: One lens of a nearsighted persons eyeglasses has a focal length of ...
 25.19: What is the focal length of the eyelens system when viewing an obje...
 25.25.19: What is the focal length of the eyelens system when viewing an obje...
 25.20: The closely packed cones in the fovea of the eye have a diameter of...
 25.25.20: The closely packed cones in the fovea of the eye have a diameter of...
 25.21: A nearsighted person has near and far points of 10.6 and 20.0 cm, r...
 25.25.21: A nearsighted person has near and far points of 10.6 and 20.0 cm, r...
 25.22: What is the focal length of a magnifying glass of 3.2x magnificatio...
 25.25.22: What is the focal length of a magnifying glass of 3.2x magnificatio...
 25.23: What is the magnification of a lens used with a relaxed eye if its ...
 25.25.23: What is the magnification of a lens used with a relaxed eye if its ...
 25.24: A magnifier is rated at for a normal eye focusing on an image at th...
 25.25.24: A magnifier is rated at for a normal eye focusing on an image at th...
 25.25: Sherlock Holmes is using an 8.20cmfocallength lens as his magnif...
 25.25.25: Sherlock Holmes is using an 8.20cmfocallength lens as his magnif...
 25.26: A small insect is placed 4.85 cm from a focallength lens. Calculat...
 25.25.26: A small insect is placed 4.85 cm from a focallength lens. Calculat...
 25.27: A 3.80mmwide bolt is viewed with a 9.60cmfocallength lens. A no...
 25.25.27: A 3.80mmwide bolt is viewed with a 9.60cmfocallength lens. A no...
 25.28: A magnifying glass with a focal length of 9.2 cm is used to read pr...
 25.25.28: A magnifying glass with a focal length of 9.2 cm is used to read pr...
 25.29: A writer uses a converging lens of focal length as a magnifying gla...
 25.25.29: A writer uses a converging lens of focal length as a magnifying gla...
 25.30: A magnifying glass is rated at for a normal eye that is relaxed. Wh...
 25.25.30: A magnifying glass is rated at for a normal eye that is relaxed. Wh...
 25.31: What is the magnification of an astronomical telescope whose object...
 25.25.31: What is the magnification of an astronomical telescope whose object...
 25.32: The overall magnification of an astronomical telescope is desired t...
 25.25.32: The overall magnification of an astronomical telescope is desired t...
 25.33: A binocular has 3.5cmfocallength eyepieces. What is the focal le...
 25.25.33: A binocular has 3.5cmfocallength eyepieces. What is the focal le...
 25.34: An astronomical telescope has an objective with focal length 75 cm ...
 25.25.34: An astronomical telescope has an objective with focal length 75 cm ...
 25.35: An astronomical telescope has its two lenses spaced 82.0 cm apart. ...
 25.25.35: An astronomical telescope has its two lenses spaced 82.0 cm apart. ...
 25.36: A Galilean telescope adjusted for a relaxed eye is 36.8 cm long. If...
 25.25.36: A Galilean telescope adjusted for a relaxed eye is 36.8 cm long. If...
 25.37: What is the magnifying power of an astronomical telescope using a r...
 25.25.37: What is the magnifying power of an astronomical telescope using a r...
 25.38: The Moons image appears to be magnified by a reflecting astronomica...
 25.25.38: The Moons image appears to be magnified by a reflecting astronomica...
 25.39: A astronomical telescope is adjusted for a relaxed eye when the two...
 25.25.39: A astronomical telescope is adjusted for a relaxed eye when the two...
 25.40: An astronomical telescope longer than about 50 cm is not easy to ho...
 25.25.40: An astronomical telescope longer than about 50 cm is not easy to ho...
 25.41: A reflecting telescope (Fig. 2522b) has a radius of curvature of 3....
 25.25.41: A reflecting telescope (Fig. 2522b) has a radius of curvature of 3....
 25.42: A pair of binoculars has an objective focal length of 26 cm. If the...
 25.25.42: A pair of binoculars has an objective focal length of 26 cm. If the...
 25.43: A microscope uses an eyepiece with a focal length of 1.70 cm. Using...
 25.25.43: A microscope uses an eyepiece with a focal length of 1.70 cm. Using...
 25.44: A microscope uses a 0.40cmfocallength objective lens. If the bar...
 25.25.44: A microscope uses a 0.40cmfocallength objective lens. If the bar...
 25.45: A 17cmlong microscope has an eyepiece with a focal length of 2.5 ...
 25.25.45: A 17cmlong microscope has an eyepiece with a focal length of 2.5 ...
 25.46: A microscope has a eyepiece and a objective lens 20.0 cm apart. Cal...
 25.25.46: A microscope has a eyepiece and a objective lens 20.0 cm apart. Cal...
 25.47: Repeat assuming that the final image is located 25 cm from the eyep...
 25.25.47: Repeat assuming that the final image is located 25 cm from the eyep...
 25.48: A microscope has a 1.8cmfocallength eyepiece and a 0.80cm objec...
 25.25.48: A microscope has a 1.8cmfocallength eyepiece and a 0.80cm objec...
 25.49: The eyepiece of a compound microscope has a focal length of 2.80 cm...
 25.25.49: The eyepiece of a compound microscope has a focal length of 2.80 cm...
 25.50: An inexpensive instructional lab microscope allows the user to sele...
 25.25.50: An inexpensive instructional lab microscope allows the user to sele...
 25.51: An achromatic lens is made of two very thin lenses, placed in conta...
 25.25.51: An achromatic lens is made of two very thin lenses, placed in conta...
 25.52: A planoconvex lens (Fig. 2331a) has one flat surface and the other ...
 25.25.52: A planoconvex lens (Fig. 2331a) has one flat surface and the other ...
 25.53: What is the angular resolution limit (degrees) set by diffraction f...
 25.25.53: What is the angular resolution limit (degrees) set by diffraction f...
 25.54: What is the resolving power of a microscope with a 5mmdiameter ob...
 25.25.54: What is the resolving power of a microscope with a 5mmdiameter ob...
 25.55: Two stars 18 lightyears away are barely resolved by a 66cm (mirro...
 25.25.55: Two stars 18 lightyears away are barely resolved by a 66cm (mirro...
 25.56: The nearest neighboring star to the Sun is about 4 lightyears away....
 25.25.56: The nearest neighboring star to the Sun is about 4 lightyears away....
 25.57: If you could shine a very powerful flashlight beam toward the Moon,...
 25.25.57: If you could shine a very powerful flashlight beam toward the Moon,...
 25.58: The normal lens on a 35mm camera has a focal length of 50.0 mm. It...
 25.25.58: The normal lens on a 35mm camera has a focal length of 50.0 mm. It...
 25.59: Suppose that you wish to construct a telescope that can resolve fea...
 25.25.59: Suppose that you wish to construct a telescope that can resolve fea...
 25.60: Xrays of wavelength 0.138 nm fall on a crystal whose atoms, lying ...
 25.25.60: Xrays of wavelength 0.138 nm fall on a crystal whose atoms, lying ...
 25.61: Firstorder Bragg diffraction is observed at 23.8 relative to the c...
 25.25.61: Firstorder Bragg diffraction is observed at 23.8 relative to the c...
 25.62: If Xray diffraction peaks corresponding to the first three orders ...
 25.25.62: If Xray diffraction peaks corresponding to the first three orders ...
 25.63: (a) Suppose for a conventional Xray image that the Xray beam cons...
 25.25.63: (a) Suppose for a conventional Xray image that the Xray beam cons...
 25.64: A pinhole camera uses a tiny pinhole instead of a lens. Show, using...
 25.25.64: A pinhole camera uses a tiny pinhole instead of a lens. Show, using...
 25.65: Suppose that a correct exposure is at 11. Under the same conditions...
 25.25.65: Suppose that a correct exposure is at 11. Under the same conditions...
 25.66: An astronomical telescope has a magnification of If the two lenses ...
 25.25.66: An astronomical telescope has a magnification of If the two lenses ...
 25.67: (a) How far away can a human eye distinguish two car headlights 2.0...
 25.25.67: (a) How far away can a human eye distinguish two car headlights 2.0...
 25.68: Figure 2548 was taken from the NIST Laboratory (National Institute ...
 25.25.68: Figure 2548 was taken from the NIST Laboratory (National Institute ...
 25.69: A 1.0cmdiameter lens with a focal length of 35 cm uses blue light...
 25.25.69: A 1.0cmdiameter lens with a focal length of 35 cm uses blue light...
 25.70: A movie star catches a reporter shooting pictures of her at home. S...
 25.25.70: A movie star catches a reporter shooting pictures of her at home. S...
 25.71: As early morning passed toward midday, and the sunlight got more in...
 25.25.71: As early morning passed toward midday, and the sunlight got more in...
 25.72: A child has a near point of 15 cm. What is the maximum magnificatio...
 25.25.72: A child has a near point of 15 cm. What is the maximum magnificatio...
 25.73: A woman can see clearly with her right eye only when objects are be...
 25.25.73: A woman can see clearly with her right eye only when objects are be...
 25.25.74: What is the magnifying power of a lens used as a magnifier? Assume ...
 25.74: What is the magnifying power of a lens used as a magnifier? Assume ...
 25.25.75: A physicist lost in the mountains tries to make a telescope using t...
 25.75: A physicist lost in the mountains tries to make a telescope using t...
 25.76: A person with normal vision adjusts a microscope for a good image w...
 25.25.76: A person with normal vision adjusts a microscope for a good image w...
 25.25.77: A 50yearold man uses lenses to read a newspaper 25 cm away. Ten y...
 25.77: A 50yearold man uses lenses to read a newspaper 25 cm away. Ten y...
 25.25.78: Two converging lenses, one with and the other with are made into a ...
 25.78: Two converging lenses, one with and the other with are made into a ...
 25.25.79: An Xray tube operates at 95 kV with a current of 25 mA and nearly ...
 25.79: An Xray tube operates at 95 kV with a current of 25 mA and nearly ...
 25.25.80: Human vision normally covers an angle of roughly 40 horizontally. A...
 25.80: Human vision normally covers an angle of roughly 40 horizontally. A...
 25.25.81: The objective lens and the eyepiece of a telescope are spaced 85 cm...
 25.81: The objective lens and the eyepiece of a telescope are spaced 85 cm...
 25.25.82: . Sam purchases eyeglasses which correct his faulty vision to put h...
 25.82: . Sam purchases eyeglasses which correct his faulty vision to put h...
 25.25.83: Spy planes fly at extremely high altitudes (25 km) to avoid interce...
 25.83: Spy planes fly at extremely high altitudes (25 km) to avoid interce...
 25.25.84: Xrays of wavelength 0.0973 nm are directed at an unknown crystal. ...
 25.84: Xrays of wavelength 0.0973 nm are directed at an unknown crystal. ...
 25.25.85: The Hubble Space Telescope, with an objective diameter of 2.4 m, is...
 25.85: The Hubble Space Telescope, with an objective diameter of 2.4 m, is...
 25.25.86: The Earth and Moon are separated by about When Mars is from Earth, ...
 25.86: The Earth and Moon are separated by about When Mars is from Earth, ...
 25.25.87: You want to design a spy satellite to photograph license plate numb...
 25.87: You want to design a spy satellite to photograph license plate numb...
 25.25.88: Given two 12cmfocallength lenses, you attempt to make a crude mi...
 25.88: Given two 12cmfocallength lenses, you attempt to make a crude mi...
 25.25.89: The power of one lens in a pair of eyeglasses is The radius of curv...
 25.89: The power of one lens in a pair of eyeglasses is The radius of curv...
Solutions for Chapter 25: Optical Instruments
Full solutions for Physics: Principles with Applications  7th Edition
ISBN: 9780321625922
Solutions for Chapter 25: Optical Instruments
Get Full SolutionsThis textbook survival guide was created for the textbook: Physics: Principles with Applications, edition: 7. Since 314 problems in chapter 25: Optical Instruments have been answered, more than 214448 students have viewed full stepbystep solutions from this chapter. This expansive textbook survival guide covers the following chapters and their solutions. Chapter 25: Optical Instruments includes 314 full stepbystep solutions. Physics: Principles with Applications was written by and is associated to the ISBN: 9780321625922.

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