工程光学英文题加中文题含答案

第一章习题1、已知真空中的光速c＝3?m/s，求光在水（n=1.333）、冕牌玻璃（n=1.51）、火石玻璃（n=1.65）、加拿大树胶（n=1.526）、金刚石（n=2.417）等介质中的光速。

???? 解：?????????则当光在水中，n=1.333时，v=2.25?m/s,??????? 当光在冕牌玻璃中，n=1.51时，v=1.99??m/s,??????? 当光在火石玻璃中，n＝1.65时，v=1.82??m/s，??????? 当光在加拿大树胶中，n=1.526时，v=1.97??m/s，??????? 当光在金刚石中，n=2.417时，v=1.24??m/s。

2、一物体经针孔相机在?屏上成一60mm大小的像，若将屏拉远50mm，则像的大小变为70mm,求屏到针孔的初始距离。

?????解：在同种均匀介质空间中光线直线传播，如果选定经过节点的光线则方向不变，令屏到针孔的初始距离为x，则可以根据三角形相似得出：所以x=300mm?????????即屏到针孔的初始距离为300mm。

?3、一厚度为200mm的平行平板玻璃（设n=1.5），下面放一直径为1mm的金属片。

若在玻璃板上盖一圆形纸片，要求在玻璃板上方任何方向上都看不到该金属片，问纸片最小直径应为多少？??? 解：令纸片最小半径为x,??? 则根据全反射原理，光束由玻璃射向空气中时满足入射角度大于或等于全反射临界角时均会发生全反射，而这里正是由于这个原因导致在玻璃板上方看不到金属片。

而全反射临界角求取方法为：?????? ???(1)???????其中n2=1,?n1=1.5,??????? 同时根据几何关系，利用平板厚度和纸片以及金属片的半径得到全反射临界角的计算方法为：??????? ???(2)???????联立（1）式和（2）式可以求出纸片最小直径x=179.385mm，所以纸片最小直径为358.77mm。

4、光纤芯的折射率为n1、包层的折射率为n2,光纤所在介质的折射率为n0，求光纤的数值孔径（即n0sinI1,其中I1为光在光纤内能以全反射方式传播时在入射端面的最大入射角）。

工程光学第二版课后答案【篇一：工程光学第三版课后答案1】中的光速c＝3*108m/s，求光在水（n=1.333）、冕牌玻璃（n=1.51）、火石玻璃（n=1.65）、加拿大树胶（n=1.526）、金刚石（n=2.417）等介质中的光速。

解：则当光在水中，n=1.333 时，v=2.25*108m/s,当光在冕牌玻璃中，n=1.51 时，v=1.99*108m/s,当光在火石玻璃中，n＝1.65 时，v=1.82*108m/s，当光在加拿大树胶中，n=1.526 时，v=1.97*108m/s，当光在金刚石中，n=2.417 时，v=1.24*108m/s。

3、一物体经针孔相机在屏上成一60mm 大小的像，若将屏拉远50mm，则像的大小变为70mm,求屏到针孔的初始距离。

解：在同种均匀介质空间中光线直线传播，如果选定经过节点的光线则方向不变，令屏到针孔的初始距离为x，则可以根据三角形相似得出：所以x=300mm即屏到针孔的初始距离为300mm。

4、一厚度为200mm 的平行平板玻璃（设n=1.5），下面放一直径为1mm 的金属片。

若在玻璃板上盖一圆形纸片，要求在玻璃板上方任何方向上都看不到该金属片，问纸片最小直径应为多少？解：令纸片最小半径为x,则根据全反射原理，光束由玻璃射向空气中时满足入射角度大于或等于全反射临界角时均会发生全反射，而这里正是由于这个原因导致在玻璃板上方看不到金属片。

而全反射临界角求取方法为：(1) 其中n2=1, n1=1.5,同时根据几何关系，利用平板厚度和纸片以及金属片的半径得到全反射临界角的计算方法为：(2)联立（1）式和（2）式可以求出纸片最小直径x=179.385mm，所以纸片最小直径为358.77mm。

8、.光纤芯的折射率为n1，包层的折射率为n2，光纤所在介质的折射率为n0，求光纤的数值孔径（即n0sini1，其中i1为光在光纤内能以全反射方式传播时在入射端面的最大入射角）。

工程英语测试题及答案一、选择题（每题2分，共20分）1. What is the term used to describe the process of turning raw materials into finished products?A. FabricationB. AssemblyC. MachiningD. Casting答案：A2. The primary function of a ________ is to convert electrical energy into mechanical energy.A. MotorB. GeneratorC. TransformerD. Inverter答案：A3. In engineering, the term "stress" refers to:A. The internal resistance of a material to deformationB. The force applied to a materialC. The change in shape of a materialD. The rate of change of force答案：A4. Which of the following is not a type of welding process?A. Arc weldingB. Gas weldingC. Ultrasonic weldingD. Friction welding答案：C5. The process of designing and building a structure is known as:A. EngineeringB. ArchitectureC. ConstructionD. All of the above答案：D6. What does the abbreviation "CAD" stand for in the field of engineering?A. Computer-Aided DesignB. Computer-Aided DraftingC. Computer-Aided DevelopmentD. Computer-Aided Documentation答案：A7. The SI unit for pressure is:A. PascalB. NewtonC. JouleD. Watt答案：A8. A ________ is a type of joint that allows for relative movement between connected parts.A. Rigid jointB. Revolute jointC. Fixed jointD. Pin joint答案：B9. The process of removing material from an object to achieve the desired shape is known as:A. MachiningB. CastingC. ForgingD. Extrusion答案：A10. In engineering, the term "specification" refers to:A. A detailed description of the requirements of aprojectB. A list of materials to be used in a projectC. The estimated cost of a projectD. The timeline for a project答案：A二、填空题（每题1分，共10分）11. The ________ is the process of cutting a flat surface ona material.答案：sawing12. A ________ is a type of bearing that allows for rotation.答案：ball bearing13. The term "gearing" refers to the use of gears to transmit ________.答案：motion14. The ________ is the study of the properties of materials.答案：material science15. In a hydraulic system, a ________ is used to control the flow of fluid.答案：valve16. The ________ is the process of heating and cooling a material to alter its physical properties.答案：heat treatment17. The ________ is a tool used to measure the hardness of a material.答案：hardness tester18. A ________ is a type of joint that connects two parts ata fixed angle.答案: hinge joint19. The ________ is the process of joining two pieces ofmetal by heating them to a molten state.答案：fusion welding20. The ________ is the study of the behavior of structures under load.答案：structural analysis三、简答题（每题5分，共30分）21. Define the term "mechanical advantage" in engineering.答案：Mechanical advantage is the ratio of output force to input force in a simple machine, indicating how much the machine amplifies the force applied to it.22. Explain the concept of "factor of safety" in engineering design.答案：The factor of safety is a ratio used in engineering to ensure that a structure or component can withstand loads beyond the maximum expected in service, providing a margin of safety against failure.23. What is the purpose of a "stress-strain curve" in material testing?答案：A stress-strain curve is a graphical representation of the relationship between the stress applied to a material and the resulting strain, used to determine the material's mechanical properties such as elasticity, yield strength, and ultimate strength.24. Describe the difference between "static" and "dynamic" loads in engineering.答案：Static loads are constant forces that do not changeover time, while dynamic loads are forces that vary in magnitude or direction over time, often due to movement or vibrations.25. What is "creep" in the context of material behavior under load?答案：Creep。

光电英语期末考试题及答案一、选择题（每题2分，共20分）1. What is the fundamental principle of the photoelectric effect?A. Electromagnetic inductionB. Quantum theoryC. Newton's third lawD. Ohm's lawAnswer: B. Quantum theory2. Which of the following is not a type of optical fiber?A. Single-mode fiberB. Multi-mode fiberC. Polarization fiberD. All of the above are types of optical fibersAnswer: C. Polarization fiber3. What does LED stand for?A. Light Emitting DiodeB. Large Emission DiodeC. Limited Energy DeviceD. Linear Energy DistributionAnswer: A. Light Emitting Diode4. In the context of optical communication, what does the term 'attenuation' refer to?A. The increase in signal strength over distanceB. The decrease in signal strength over distanceC. The frequency of the signalD. The phase of the signalAnswer: B. The decrease in signal strength over distance5. What is the primary function of a photodiode?A. To convert electrical energy into lightB. To convert light into electrical energyC. To amplify electrical signalsD. To filter out noise in electrical signalsAnswer: B. To convert light into electrical energy二、填空题（每空2分，共20分）6. The ________ is the study of the behavior and effects of light, including its interactions with matter.Answer: Optics7. A ________ is a device that can change the direction of light by reflection or refraction.Answer: Lens8. The process of converting electrical signals into light pulses for transmission is known as ________.Answer: Electro-Optical Conversion9. The ________ effect is the phenomenon where electrons are emitted from a material when it is exposed to light of sufficient energy.Answer: Photoelectric10. In fiber optics, the ________ is the point at which the light is fully confined within the core of the fiber.Answer: Critical Angle三、简答题（每题15分，共30分）11. Explain the difference between a laser and a LED in terms of their applications and operational principles.Answer:A laser, or Light Amplification by Stimulated Emission of Radiation, produces a highly focused and coherent beam of light. It is used in various applications such as communication, surgery, and material processing due to its precision and power. On the other hand, a LED, or Light Emitting Diode, emits incoherent light and is used for general illumination, indicator lights, and displays due to its efficiency and longevity.12. Describe the process of total internal reflection and its significance in fiber optics.Answer:Total internal reflection occurs when light traveling from a medium with a higher refractive index to a medium with a lower refractive index hits the boundary at an anglegreater than the critical angle. Instead of refracting, the light is completely reflected back into the original medium. In fiber optics, this phenomenon is crucial as it allowslight signals to travel long distances with minimal loss, making it ideal for communication networks.四、论述题（每题15分，共30分）13. Discuss the role of photodetectors in modern communication systems.Answer:Photodetectors play a pivotal role in modern communication systems, particularly in optical communication. They convert the incoming optical signals back intoelectrical signals, which can then be processed and interpreted by electronic devices. The high-speed and high-sensitivity characteristics of photodetectors make them suitable for handling the vast amounts of data transmitted in fiber optic networks. Moreover, their ability to operate over a wide range of wavelengths allows for the efficient use of the optical spectrum.14. Explain the concept of optical amplification and its importance in long-haul communication.Answer:Optical amplification is the process of increasing the power of an optical signal without converting it to an electrical signal. This is achieved using devices such as erbium-doped fiber amplifiers (EDFAs), which can amplifysignals over a broad range of wavelengths. Optical amplification is crucial for long-haul communication as it compensates for signal loss due to attenuation, thereby extending the reach of optical signals without the need for frequent signal regeneration, thus improving the efficiency and reliability of the communication system.光电英语期末考试题答案。

工程光学练习答案(带样题)期末，东北石油大学审查了09级工程光学的测量和控制材料。

第一章练习1，假设真空中的光速为3米/秒，则计算水中(n=1.333)、皇冠玻璃(n=1.51)、燧石玻璃(n=1.65)、加拿大树胶(n=1.526)、钻石(n=2.417)和其他介质中的光速。

解决方案:当灯在水中时，n=1.333，v=2.25m米/秒，当灯在皇冠玻璃中时，n=1.51，v=1.99m米/秒，当灯在燧石玻璃中时，n=1.65，v=1.82m米/秒，当灯在加拿大树胶中时，n=1.526，v=1.97m米/秒，当灯在钻石中时，n=2.417，v=1.24米/秒。

2.一个物体穿过针孔照相机，在屏幕上形成一个60毫米大小的图像。

如果屏幕被拉开50毫米，图像的尺寸变成70毫米，计算出从屏幕到针孔的初始距离。

解决方案:在同一个均匀的介质空间中，光直线传播。

如果选择通过节点的光，方向不会改变，从屏幕到针孔的初始距离为x，则可以根据三角形的相似性得到:因此，x=300mm毫米意味着从屏幕到针孔的初始距离是300毫米。

3、一块厚度为200毫米的平行平板玻璃(n=1.5)，下面放一块直径为1毫米的金属板。

如果玻璃板上覆盖有圆形纸片，则要求玻璃板上方的任何方向都不能看到纸片。

这张纸的最小直径是多少？解决方案:如果纸片的最小半径是x，那么根据全反射原理，当光束从玻璃发射到空气中的入射角大于或等于全反射临界角时，就会发生全反射，正是由于这个原因，在玻璃板上方看不到金属片。

全反射的临界角由下式确定:(1)其中N2=1，n1=1.5，根据几何关系，利用平板的厚度和纸张与金属片的半径计算全反射临界角的方法如下:(2)纸张的最小直径x=179.385mm毫米可以通过组合等式(1)和(2)来获得，因此纸张的最小直径为358.77毫米4.光纤芯的折射率是n1.包层的折射率为n2，光纤所在介质的折射率为n0。

计算光纤的数值孔径(即n0sinI1，其中I1是光在光纤中以全反射模式传播时，光在入射端面的最大入射角)。

English Homework for Chapter 11.In ancient times the rectilinear propagation of light was used to measure the height of objects by comparing the length of their shadows with the length of the shadow of an object of known length. A staff 2m long when held erect casts a shadow 3.4m long, while a building’s shadow is 170m long. How tall is the building?Solution. According to the law of rectilinear propagation, we get, x=100 (m)So the building is 100m tall.2.Light from a water medium with n=1.33 is incident upon a water-glass interface at an angle of 45o. The glass index is 1.50. What angle does the light make with the normal in the glass?Solution. According to the law of4.32170 xrefraction, We get,So the light makenormal in the glass.3. A goldfish swims 10cm from the side of a spherical bowl of water of radius 20cm. Where does the fish appear to be? Does it appear larger or smaller?Solution. According to the equation. and n ’=1 , n=1.33, r=-20we can getSo the fish appears larger.''sin sin I n I n =626968.05.145sin 33.1sin =⨯='I8.38='I rn n l n l n -'=-''11416.110133.15836.8)(5836.81165.02033.01033.11>-=⨯⨯-=''=-='∴-=--+-=-'+='l n l n cm l r n n l n l β n A4.An object is located 2cm to the left of convex end of a glass rod which has a radius of curvature of 1cm. The index of refraction of the glass is n=1.5. Find the image distance.Solution. Refer to the figure. According to the equationand n=1, n ’=1.5, l 1=-2cm,rn n l n l n -'=-''r 1=1cm , we getEnglish Homework for Chapter 21.An object 1cm high is 30cm in front of a thin lens with a focal length of 10cm. Where is the image? Verify your answer by graphical construction of the image. Solution. According toequation, and l=-30cm f ’we getOthers are omitted.cm l l d l l l 2021115.15.121211='∴-∞='-=∞='∴=-+-='f l l '=-'11)(15)30(10)30(10cm l f l f l =-+-⨯=+''='′′′2.A lens is known to have a focal length of 30cm in air. An object is placed 50cm to the left of the lens. Locate the image and characterize it.Solution.and f′=30cm l we getThe image is a real, larger one.3.The object is transparent cube, 4mm across, placed 60cm in front of 20cm focal length. Calculate the transverse and axial magnification and describe what the image looks like?Solution. From Gauss’s equation, we find for the rear surface of the cube (the face closer to the lens)that,f l l '=-'11(75)50(30)50(30l f l f l =-+-⨯=+''='5.15075-=-='=l l β)(3020)60()20()60(111cm f l f l l +=+-⨯-='+'='′For the front surface (the face farther away from the lens),The transverse magnification for the rear surface isBut the axial magnification isSince ,the cube doesn’t look likea cube.4.A biconvex lens is made out of glass of n=1.52. If one surface has twice the radius of curvature of the other, and if the focal length is 5cm, what are the two radii?Solution. Supposing r 1= -2r 2 (ρ2=-2ρ1),according to the lens equationwe get,∴r 1=7.8(cm) r 2=-3.9(cm))(9.29204.6020)4.60(2cm l +=+-⨯-='⨯-=-+=5.06030t M ⨯+=----=∆'∆=25.0)4.60(609.2930l l M a atM M ≠))(1(21ρρϕ--=n )(152.1(51ρ-=1282.01=∴ρ2564.02-=ρ返回English Homework for Chapter 4 1. A stop 8mm in diameter is placed halfway between an extended object and a large-diameter lens of 9cm focal length. The lens projects an image of the object onto a screen 14cm away. What is the diameter of the exit pupil?Solution. Refer to the figure. First, from the known focal length and the image distance,we find the object distance. and l ’=14 f ’=9l =-25.2(cm)The stop is one-half that distance is front of the lens, so l s =12.6(cm)∴l s ’=31.5(cm)∴2. Two lenses, a lens of 12.5cm focal length and a minus lens of unknownf l l '=-'11122.255.31-='==ss stop ex l l D D β )(28.05.2cm D ex=⨯=power, are mounted coaxially and 8 cm apart. The system is a focal, that is light entering the system parallel at one side emerges parallel at the other. If a stop 15mm in diameter is placed halfway between the lenses:1) Where is the entrance pupil?2) Where is the exit pupil?3) What are their diameters?’Solution. Refer to the figure. For thesystem to be a focal, the focal points of the two lenses mustcoincide. Since f 1’=12.5cm, and the two lenses are 8cm apart, so f 2’=-4.5cm. The entrance pupil is the image of stop formed by the first lens.According to Gauss’s equation,and l 1’=4cm, f 1’=12.5cm. We getThe exit pupil’slocation is返回111111f l l '=-'())(88.55.845.1211111cm l f l f l =⨯='-'''=)(05.22488.5151mm D D stopentrance =⨯==β)(95.715412.2)(12.25.818)4()5.4()4()5.4(222222mm D D cm f l l f l stop exit =⨯=∙=-=-=-+--⨯-='+'='βEnglish Homework for Chapter 71. A person wants to look at the image of his or her own eyes, without accommodation, using a concave mirror of 60cm radius of curvature. How far must the mirror be from the eye if the person has1) Normal vision?2) 4diopter myopia, without correction?3) 4diopter hyperopia, without correction?Solution.1) When the person has normal vision, according to the following scheme 1, we getso,∞='l cm r l 302==Scheme 1and, orSo the mirror must be 75cm or 10cmfrom the eye.and, or (Since the object isreal, so we can give up this answer)So the mirror must be 50cm from theeye.141-=m l r cm l l r 25-=='r l l 211=+' )(25cm l l +'=cm r 60=265852253048585025308522±=⨯⨯-±==⨯+-l l l ⎩⎨⎧==∴)(50')(7511cm l cm l ⎩⎨⎧-==)(15')(1022cm l cm l r l l 211=+' )(25'cm l l +=cm r 60=265352253043535025303522±=⨯⨯+±==⨯--l l l ⎩⎨⎧==∴)(75')(5011cm l cm l ⎩⎨⎧=-=)(10')(1522cm l cm l Scheme 2 Scheme 32. Discussion: What differences between the following situations:1) a microscope is used for projection;2) the microscope is used for visual observation.返回工程光学（上）期末考试试卷一．问答题：（共12分，每题3分）1．摄影物镜的三个重要参数是什么？它们分别决定系统的什么性质？2．为了保证测量精度，测量仪器一般采用什么光路？为什么？3．显微物镜、望远物镜、照相物镜各应校正什么像差？为什么？4．评价像质的方法主要有哪几种？各有什么优缺点？二．图解法求像或判断成像方向：（共18分，每题3分）1．求像A'B'2．求像A'B'3．求物AB经理想光学系统后所成的像，并注明系统像方的基点位置和焦距4．判断光学系统的成像方向5．求入瞳及对无穷远成像时50%渐晕的视场6．判断棱镜的成像方向三．填空：（共10分，每题2分）1．照明系统与成像系统之间的衔接关系为：①________________________________________________②________________________________________________2．转像系统分____________________和___________________两大类，其作用是：_______________________________ __________3．一学生带500度近视镜，则该近视镜的焦距为_________________,该学生裸眼所能看清的最远距离为_________________。

English Homework for Chapter 11.In ancient times the rectilinear propagation of light was used to measure the height of objects by comparing the length of their shadows with the length of the shadow of an object of known length. A staff 2m long when held erect casts a shadow 3.4m long, while a building’s shadow is 170m long. How tall is the building?Solution. According to the law of rectilinear propagation, we get, 4.32170 x x=100 (m)So the building is 100m tall.2.Light from a water medium with n=1.33 is incident upon a water-glass interface at an angle of 45o. The glass index is 1.50. What angle does the light make with the normal in the glass?Solution. According to the law ofrefraction, We get,''sin sin I n I n =626968.05.145sin 33.1sin =⨯='οIο8.38='I So the light makenormal in the glass.3. A goldfish swims 10cm from the side of a spherical bowl of water of radius 20cm. Where does the fish appear to be? Does it appear larger or smaller?Solution. According to the equation. rn n l n l n -'=-'' and n ’=1 , n=1.33, r=-20we can get11416.110133.15836.8)(5836.81165.02033.01033.11>-=⨯⨯-=''=-='∴-=--+-=-'+='l n l n cm l r n n l n l βΘ So the fish appears larger.A4.An object is located 2cm to the left of convex end of a glass rod which has a radius of curvature of 1cm. The index of refraction of the glass is n=1.5. Find the image distance.Solution. Refer to the figure. According to the equationrn n l n l n -'=-'' and n=1, n ’=1.5, l 1=-2cm,r 1=1cm , we getcm l l d l l l 2021115.15.121211='∴-∞='-=∞='∴=-+-='English Homework for Chapter 21.An object 1cm high is 30cm in front of a thin lens with a focal length of 10cm. Where is the image? Verify your answer by graphical construction of the image. Solution. According toequation, f l l '=-'11 and l=-30cm f ’we get)(15)30(10)30(10cm l f l f l =-+-⨯=+''='Others are omitted.′2.A lens is known to have a focal length of 30cm in air. An object is placed 50cm to the left of the lens. Locate the image and characterize it.Solution.f l l '=-'11 and f′=30cm l we get (75)50(30)50(30l f l f l =-+-⨯=+''='5.15075-=-='=l l βThe image is a real, larger one.3.The object is transparent cube, 4mm across, placed 60cm in front of 20cm focal length. Calculate the transverse and axial magnification and describe what the image looks like?Solution. From Gauss’s equation, we find for the rear surface of the cube (the face closer to the lens)that,)(3020)60()20()60(111cm f l f l l +=+-⨯-='+'='′For the front surface (the face farther away from the lens),)(9.29204.6020)4.60(2cm l +=+-⨯-='The transverse magnification for therear surface is ⨯-=-+=5.06030t MBut the axial magnification is⨯+=----=∆'∆=25.0)4.60(609.2930l l M aSince atM M ≠,the cube doesn’t look likea cube.4.A biconvex lens is made out of glass of n=1.52. If one surface has twice the radius of curvature of the other, and if the focal length is 5cm, what are the two radii?Solution. Supposing r 1= -2r 2 (ρ2=-2ρ1),according to the lens equation))(1(21ρρϕ--=n we get,)(152.1(51ρ-=1282.01=∴ρ2564.02-=ρ∴r 1=7.8(cm) r 2=-3.9(cm)返回English Homework for Chapter 4 1. A stop 8mm in diameter is placed halfway between an extended object and a large-diameter lens of 9cm focal length. The lens projects an image of the object onto a screen 14cm away. What is the diameter of the exit pupil?Solution. Refer to the figure. First, from the known focal length and the image distance,we find the object distance. f l l '=-'111Θand l ’=14 f ’=9l =-25.2(cm)The stop is one-half that distance is front of the lens, so l s =12.6(cm) ∴l s ’=31.5(cm)22.255.31-='==ss stop ex l l D D βΘ∴)(28.05.2cm D ex=⨯=2. Two lenses, a lens of 12.5cm focal length and a minus lens of unknown power, are mounted coaxially and 8cm apart. The system is a focal, that is light entering the system parallel at one side emerges parallel at the other. If a stop 15mm in diameter is placed halfway between the lenses:1) Where is the entrance pupil?2) Where is the exit pupil?3) What are their diameters?Solution.Refer to the figure. For thesystem to be a focal, the focal points of the two lenses must coincide. Since f 1’=12.5cm, and the two lenses are 8cm apart, so f 2’=-4.5cm. The entrance pupil is the image of stop formed by the first lens.According to Gauss’s equation, 111111f l l '=-'and l 1’=4cm, f 1’=12.5cm. We get())(88.55.845.1211111cm l f l f l =⨯='-'''=)(05.22488.5151mm D D stopentrance =⨯==β The exit pupil’slocation is)(95.715412.2)(12.25.818)4()5.4()4()5.4(222222mm D D cm f l l f l stop exit =⨯=•=-=-=-+--⨯-='+'='β返回English Homework for Chapter 71. A person wants to look at the image of his or her own eyes, without accommodation, using a concave mirror of 60cm radius of curvature. How far must the mirror be from the eye if the person has1) Normal vision?2) 4diopter myopia, without correction?3) 4diopter hyperopia, without correction?Solution.1) When the person has normal vision, according to the following scheme 1, we get ∞='lso, cm r l 302== 141-=m l r cm l l r 25-==' Scheme 1r l l 211=+'Θ and )(25cm l l +'= cm r 60=265852253048585025308522±=⨯⨯-±==⨯+-l l l Θ ⎩⎨⎧==∴)(50')(7511cm l cm l , or ⎩⎨⎧-==)(15')(1022cm l cm lSo the mirror must be 75cm or 10cm from the eye.rl l 211=+'Θ and )(25'cm l l += cm r 60= 265352253043535025303522±=⨯⨯+±==⨯--l l l Θ ⎩⎨⎧==∴)(75')(5011cm l cm l , or ⎩⎨⎧=-=)(10')(1522cm l cm l (Since the object isreal, so we can give up this answer)So the mirror must be 50cm from the eye.Scheme 2 Scheme 32. Discussion: What differences between the following situations:1) a microscope is used for projection;2) the microscope is used for visual observation.返回工程光学（上）期末考试试卷一．问答题：（共12分，每题3分）1．摄影物镜的三个重要参数是什么？它们分别决定系统的什么性质？2．为了保证测量精度，测量仪器一般采用什么光路？为什么？3．显微物镜、望远物镜、照相物镜各应校正什么像差？为什么？4．评价像质的方法主要有哪几种？各有什么优缺点？二．图解法求像或判断成像方向：（共18分，每题3分）1．求像A'B'2．求像A'B'3．求物AB经理想光学系统后所成的像，并注明系统像方的基点位置和焦距4．判断光学系统的成像方向5．求入瞳及对无穷远成像时50%渐晕的视场6．判断棱镜的成像方向三．填空：（共10分，每题2分）1．照明系统与成像系统之间的衔接关系为：①________________________________________________②________________________________________________2．转像系统分____________________和___________________两大类，其作用是：_______________________________ __________3．一学生带500度近视镜，则该近视镜的焦距为_________________,该学生裸眼所能看清的最远距离为_________________。

⼯程光学期末考试题库试题含答案详解⼀、填空题1．在单缝衍射中，设缝宽为a，光源波长为λ，透镜焦距为f ′，则其衍射暗条纹间距e暗= ___ ，条纹间距同时可称为。

2．当保持⼊射光线的⽅向不变，⽽使平⾯镜转15°⾓，则反射光线将转动⾓。

3．光线通过平⾏平板折射后出射光线⽅向___ ___ ,但会产⽣轴向位移量，当平⾯板厚度为d，折射率为n，则在近轴⼊射时，轴向位移量为_______ 。

4．在光的衍射装置中，⼀般有光源、衍射屏、观察屏，则衍射按照它们距离不同可分为两类，⼀类为 ____ ，另⼀类为 _____ 。

5．光轴是晶体中存在的特殊⽅向,当光在晶体中沿此⽅向传播时不产⽣________ 。

neo的单轴晶体称为 __________ 。

6．1/4波⽚的附加相位差为 _______ ,线偏振光通过1/4波⽚后，出射光将变为 __________ 。

7．单个折射球⾯横向放⼤率β=，当-1<β<0时，成像性质为。

8．两列波相⼲的条件 ____ ___________ 、_____________ _9.假设光波的偏振度为p，则p=0时表⽰ ____ ____ ，p=1时表⽰_____ ___ __ ,0时表⽰ _____ _____ 。

10.菲涅尔圆孔衍射图样的中⼼点可能是___ ____的，也可能是_ 的，⽽夫琅和费衍射图样的中⼼点是___________ 的。

11.光波的振动⽅向与传播⽅向互相 ____ __ ,所以光波是 ___ ____ 。

12.当⾃然光以布儒斯特⾓⼊射⾄两各向同性介质界⾯上，其反射光为_______ _ 偏振光，折射光为____ __ 偏振光。

13.光线通过双平⾯镜后，其⼊射光线与出射光线的夹⾓为50°，则双平⾯镜的夹⾓为 _______ 。

14.在迈克尔逊⼲涉仪中，⽤单⾊光源直接照明，若反射镜M1、M2严格垂直，则此时发⽣（等倾或等厚）⼲涉，可观察到__________ ___ __（描述条纹特点）,若M1与M2’间的厚度每减少 _______ 的距离,在条纹中⼼就⼀个条纹15.限制进⼊光学系统的成像光束⼝径的光阑称为，限制物体成像范围的光阑称为，能够在像平⾯上获得⾜够清晰像的空间深度称为。

第十二章 光的衍射1． 波长为500nm 的平行光垂直照射在宽度为0.025mm 的单缝上，以焦距为50cm 的会聚透镜将衍射光聚焦于焦面上进行观察，求（1）衍射图样中央亮纹的半宽度；（2）第一亮纹和第二亮纹到中央亮纹的距离；（3）第一亮纹和第二亮纹的强度。

解：（1）零强度点有sin (1,2, 3....................)a n n θλ==±±± ∴中央亮纹的角半宽度为0aλθ∆=∴亮纹半宽度290035010500100.010.02510r f f m a λθ---⨯⨯⨯=⋅∆===⨯ （2）第一亮纹，有1sin 4.493a παθλ=⋅= 9134.493 4.493500100.02863.140.02510rad a λθπ--⨯⨯∴===⨯⨯ 21150100.02860.014314.3r f m mm θ-∴=⋅=⨯⨯==同理224.6r mm =（3）衍射光强20sin I I αα⎛⎫= ⎪⎝⎭，其中sin a παθλ= 当sin a n θλ=时为暗纹，tg αα=为亮纹 ∴对应 级数 α 0II0 0 11 4.493 0.047182 7.725 0.01694 . . . . . . . . .2． 平行光斜入射到单缝上，证明：（1）单缝夫琅和费衍射强度公式为20sin[(sin sin )](sin sin )a i I I a i πθλπθλ⎧⎫-⎪⎪=⎨⎬⎪⎪-⎩⎭式中，0I 是中央亮纹中心强度；a 是缝宽；θ是衍射角，i 是入射角（见图12-50） （2）中央亮纹的角半宽度为cos a iλθ∆=证明：(1))即可(2)令(sin sin ai πθπλ==± ∴对于中央亮斑 sin sin i aλθ-=3． 在不透明细丝的夫琅和费衍射图样中，测得暗条纹的间距为1.5mm ，所用透镜的焦距为30mm ，光波波长为632.8nm 。

第一章习题1、已知真空中的光速c＝3m/s，求光在水（n=）、冕牌玻璃（n=）、火石玻璃（n=）、加拿大树胶（n=）、金刚石（n=）等介质中的光速。

？解：则当光在水中，n=时，v=m/s,当光在冕牌玻璃中，n=时，v=m/s,当光在火石玻璃中，n＝时，v=m/s，当光在加拿大树胶中，n=时，v=m/s，当光在金刚石中，n=时，v=m/s。

2、一物体经针孔相机在屏上成一60mm大小的像，若将屏拉远50mm，则像的大小变为70mm,求屏到针孔的初始距离。

？解：在同种均匀介质空间中光线直线传播，如果选定经过节点的光线则方向不变，令屏到针孔的初始距离为x，则可以根据三角形相似得出：所以x=300mm？即屏到针孔的初始距离为300mm。

3、一厚度为200mm的平行平板玻璃（设n=），下面放一直径为1mm的金属片。

若在玻璃板上盖一圆形纸片，要求在玻璃板上方任何方向上都看不到该金属片，问纸片最小直径应为多少解：令纸片最小半径为x,则根据全反射原理，光束由玻璃射向空气中时满足入射角度大于或等于全反射临界角时均会发生全反射，而这里正是由于这个原因导致在玻璃板上方看不到金属片。

而全反射临界角求取方法为：(1)其中n2=1,n1=,同时根据几何关系，利用平板厚度和纸片以及金属片的半径得到全反射临界角的计算方法为：(2)联立（1）式和（2）式可以求出纸片最小直径x=179.385mm，所以纸片最小直径为358.77mm。

4、光纤芯的折射率为n1、包层的折射率为n2,光纤所在介质的折射率为n0，求光纤的数值孔径（即n0sinI1,其中I1为光在光纤内能以全反射方式传播时在入射端面的最大入射角）。

解：位于光纤入射端面，满足由空气入射到光纤芯中，应用折射定律则有：n0sinI1=n2sinI2(1)而当光束由光纤芯入射到包层的时候满足全反射，使得光束可以在光纤内传播，则有：(2)由（1）式和（2）式联立得到n0 sinI1.5、一束平行细光束入射到一半径r=30mm、折射率n=的玻璃球上，求其会聚点的位置。