Answered step by step
Verified Expert Solution
Link Copied!

Question

1 Approved Answer

3. [0/1 Points] DETAILS PREVIOUS ANSWERS OSCOLPHY52016 26.2.WA.014.TUTORIAL. MY NOTES ASKYOUR TEACHER PRACTICE ANOTHER Two lab partners, Man/ and Paul are both farsighted. Mary has

image text in transcribedimage text in transcribedimage text in transcribedimage text in transcribed
image text in transcribedimage text in transcribedimage text in transcribedimage text in transcribed
3. [0/1 Points] DETAILS PREVIOUS ANSWERS OSCOLPHY52016 26.2.WA.014.TUTORIAL. MY NOTES ASKYOUR TEACHER PRACTICE ANOTHER Two lab partners, Man/ and Paul are both farsighted. Mary has a near point of 65.0 cm from her eyes and Paul has a near point of 126 cm from his eyes. Both students wear glasses that correct their vision to a normal near point of 25.0 cm from their eyes, and both wear glasses 1.80 cm from their eyes. In the process of wrapping up their lab work and leaving for their next class, they get their glasses exchanged (Mary leaves with Paul's glasses and Paul leaves with Mary's glasses). When they get to their next class, nd the following. (a) Determine the closest object that Mary can see clearly (relative to her eyes) while wearing Paul's glasses. x Try splitting the problem into two steps. First, find the refractive power of each pair of glasses and then the closest object that each student can clearly view while wearing the other student's glasses. Think carefully about whether a particular object or image distance should be relative to the glasses or relative to the eyes. Give careful thought to the appropriate algebraic sign (:t) for all object and image distances. m (b) Determine the closest object that Paul can see clearly (relative to his eyes) while wearing Man/'s glasses. _x How can you modify the result used to determine the closest object Mary can see clearly to determine the closest object Paul can see clearly? m Additional Materials III Reading '3 Tutorial 3. [0/1 Points] DETAILS PREVIOUS ANSWERS OSCOLPHYSZO16 26.4.WA.029. MY NOTES ASK YOUR TEACHER PRACTICE ANOTHER When you hold an insect at the near point of your eye it subtends an angle of 5.00 X 10'3 rad. Determine the angular size (magnitude only) of the insect when viewed through a microscope that has an angular magnication with a magnitude of 140. -x How is the angular magnification of a microscope related to the angle size of the object with and without optical instrumentation? rad Additional Materials III Reading 4. [l1 Points] DETAILS OSCOLPHY52016 26.5.WA.040.TUTORIAL. MY NOTES ASK YOUR TEACHER PRACTICE ANOTHER The telescope at a small obsen/atory has objective and eyepiece focal lengths respectively of 17.8 m and 12 cm. If this telescope is used to view a 1320 m diameter lunar crater on the surface of the moon 3.77 X 108 m from the surface of the Earth, determine the following. (a) angular magnification of the telescope H (b) size of he first image m H (c) length of the barrel of the telescope m H (d) angle subtended at the unaided eye by the lunar crater rad H (e) angle subtended at the eye when the lunar crater is viewed through the telescope rad H Additional Materials I: Reading a Tutorial 7. [0.33/1 Points] DETAILS PREVIOUS ANSWERS OSCOLPHY52016 26.5.WA.044. MY NOTES ASK YOUR TEACHER PRACTICE ANOTHER A small telescope has a concave mirror with a 2.50-m radius of curvature for its objective. Its eyepiece is a 4.20-cm focal length lens. (a) What is the telescope's angular magnification? -x How is the angular magnification of a telescope related to the focal length of the objective and eyepiece lens? (b) What is the angle subtended by a 25,000km diameter sunspot? The average EarthSun distance is 1.496 X 1011 m. 0.000167 g; rad (c) What is the angle of its telescopic image? _x How is the angle of the telescopic image related to the angular magnification and the angle subtended by the object? rad Additional Materials El Reading

Step by Step Solution

There are 3 Steps involved in it

Step: 1

blur-text-image

Get Instant Access to Expert-Tailored Solutions

See step-by-step solutions with expert insights and AI powered tools for academic success

Step: 2

blur-text-image_2

Step: 3

blur-text-image_3

Ace Your Homework with AI

Get the answers you need in no time with our AI-driven, step-by-step assistance

Get Started

Recommended Textbook for

Particle Physics

Authors: Brian R. Martin, Graham Shaw

4th Edition

1118912164, 1118912160, 978-1-118-9119, 978-1118912164

More Books

Students also viewed these Physics questions