Textbook Question
A 20x telescope has a 12-cm-diameter objective lens. What minimum diameter must the eyepiece lens have to collect all the light rays from an on-axis distant source?
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Ch 35: Optical Instruments
Knight Calc5th EditionPhysics for Scientists and EngineersISBN: 9780137344796
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Table of contents
- Ch 01: Concepts of Motion35
- Ch 02: Kinematics in One Dimension75
- Ch 03: Vectors and Coordinate Systems58
- Ch 04: Kinematics in Two Dimensions60
- Ch 05: Force and Motion23
- Ch 06: Dynamics I: Motion Along a Line53
- Ch 07: Newton's Third Law27
- Ch 08: Dynamics II: Motion in a Plane52
- Ch 09: Work and Kinetic Energy56
- Ch 10: Interactions and Potential Energy50
- Ch 11: Impulse and Momentum56
- Ch 12: Rotation of a Rigid Body71
- Ch 13: Newton's Theory of Gravity52
- Ch 14: Fluids and Elasticity44
- Ch 15: Oscillations55
- Ch 16: Traveling Waves37
- Ch 17: Superposition39
- Ch 18: A Macroscopic Description of Matter53
- Ch 19: Work, Heat, and the First Law of Thermodynamics60
- Ch 20: The Micro/Macro Connection53
- Ch 21: Heat Engines and Refrigerators34
- Ch 22: Electric Charges and Forces40
- Ch 23: The Electric Field39
- Ch 24: Gauss' Law32
- Ch 25: The Electric Potential63
- Ch 26: Potential and Field57
- Ch 27: Current and Resistance42
- Ch 28: Fundamentals of Circuits39
- Ch 29: The Magnetic Field47
- Ch 30: Electromagnetic Induction60
- Ch 31: Electromagnetic Fields and Waves32
- Ch 32: AC Circuits63
- Ch 33: Wave Optics32
- Ch 34: Ray Optics57
- Ch 35: Optical Instruments30
- Ch 36: Special Relativity38
- Ch 37: The Foundations of Modern Physics25
- Ch 38: Quantization49
- Ch 39: Wave Functions and Uncertainty31
- Ch 40: One-Dimensional Quantum Mechanics35
- Ch 41: Atomic Physics18
- Ch 42: Nuclear Physics27
Knight Calc5th EditionPhysics for Scientists and EngineersISBN: 9780137344796Not the one you use?Change textbook
Chapter 35, Problem 16
A microscope has a 160 mm tube length. What focal-length objective will give total magnification ≈ 500x when used with an eyepiece having a focal length of 5.0 cm?
Verified step by step guidance1
Step 1: Understand the relationship between total magnification, the magnification of the objective lens, and the magnification of the eyepiece. Total magnification is the product of the magnification of the objective lens and the magnification of the eyepiece: \( M_{total} = M_{objective} \times M_{eyepiece} \).
Step 2: Calculate the magnification of the eyepiece using its focal length. The magnification of the eyepiece is given by \( M_{eyepiece} = \frac{25 \text{ cm}}{f_{eyepiece}} \), where 25 cm is the near point of the human eye. Substitute \( f_{eyepiece} = 5.0 \text{ cm} \) into the formula.
Step 3: Rearrange the total magnification formula to solve for the magnification of the objective lens: \( M_{objective} = \frac{M_{total}}{M_{eyepiece}} \). Substitute \( M_{total} = 500 \) and the value of \( M_{eyepiece} \) calculated in Step 2.
Step 4: Use the formula for the magnification of the objective lens: \( M_{objective} = \frac{L}{f_{objective}} \), where \( L \) is the tube length (160 mm or 16.0 cm) and \( f_{objective} \) is the focal length of the objective lens. Rearrange this formula to solve for \( f_{objective} \): \( f_{objective} = \frac{L}{M_{objective}} \).
Step 5: Substitute \( L = 16.0 \text{ cm} \) and the value of \( M_{objective} \) from Step 3 into the formula for \( f_{objective} \). This will give the focal length of the objective lens required to achieve the desired total magnification.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Total Magnification
Total magnification in a microscope is the product of the magnification of the objective lens and the eyepiece. It indicates how much larger an object appears compared to its actual size. For example, if the objective lens has a magnification of 40x and the eyepiece has a magnification of 10x, the total magnification would be 400x. Understanding this relationship is crucial for determining the required specifications of the lenses.
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Focal Length
Focal length is the distance from the lens to the point where parallel rays of light converge to a single point. In microscopes, the focal length of the objective lens affects the magnification and the working distance. A shorter focal length typically results in higher magnification, which is essential for observing small details in specimens. Knowing how to calculate and apply focal lengths is vital for achieving the desired total magnification.
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Lens Formula
The lens formula relates the object distance, image distance, and focal length of a lens. It is expressed as 1/f = 1/v - 1/u, where f is the focal length, v is the image distance, and u is the object distance. This formula is fundamental in optics for determining how lenses will behave in a system, especially in microscopes where precise calculations are necessary to achieve specific magnifications.
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Related Practice
Textbook Question
A sheet of glass has nred = 1.52 and nviolet = 1.55. A narrow beam of white light is incident on the glass at 30°. What is the angular spread of the light inside the glass?
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Textbook Question
What is the f-number of a relaxed eye with the pupil fully dilated to 8.0 mm? Model the eye as a single lens 2.4 cm in front of the retina.
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Textbook Question
Ramon has contact lenses with the prescription +2.0 D. What eye condition does Ramon have?
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Textbook Question
A hydrogen discharge lamp emits light with two prominent wavelengths: 656 nm (red) and 486 nm (blue). The light enters a flint-glass prism perpendicular to one face and then refracts through the hypotenuse back into the air. The angle between these two faces is 35°. What is the angle (in degrees) between the red and blue light as it leaves the prism?
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Textbook Question
A magnifier has a magnification of 5x. How far from the lens should an object be held so that its is seen at the near-point distance of 25 cm? Assume that your eye is immediately behind the lens.
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