Physics for Scientists and Engineers, Vol. 1
6th Edition
ISBN: 9781429201322
Author: Paul A. Tipler, Gene Mosca
Publisher: Macmillan Higher Education
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Chapter 28, Problem 1P
(a)
To determine
The orientation of sheet for maximum magnitude of magnetic flux through it.
(a)
Expert Solution
Explanation of Solution
Introduction
The magnetic flux can be defined as the number of magnetic field lines that pass through a closed surface.
The mathematical expression for the magnetic flux is given by,
The magnetic equator is a line on the surface of Earth on which magnetic field of Earth is horizontal. At the magnetic equator, for the maximum magnitude of the magnetic flux the orientation of the flat sheet should be in such a way that the normal to the sheet is vertical in orientation.
Conclusion:
Therefore, the orientation of sheet is in such a way that normal to the sheet is vertical.
(b)
To determine
The orientation of the flat sheet.
(b)
Expert Solution
Explanation of Solution
Introduction:
The magnetic flux can be defined as the number of magnetic field lines that pass through a closed surface.
The mathematical expression for the magnetic flux is given by,
At the magnetic equator, for the minimum magnitude of the magnetic flux the orientation of the flat sheet should be in such a way that the plane of the paper is perpendicular to the surface of the Earth at that location.
Conclusion:
Therefore, the orientation of the sheet is perpendicular to the surface of the Earth at that location.
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Use the following information to answer the next question.
Two mirrors meet an angle, a, of 105°. A ray of light is incident upon mirror A at an angle, i, of
42°. The ray of light reflects off mirror B and then enters water, as shown below:
Incident
ray at A
Note: This diagram is not to
scale.
a
Air (n = 1.00)
Water (n = 1.34)
1) Determine the angle of refraction of the ray of light in the water.
B
Hi can u please solve
6. Bending a lens in OpticStudio or OSLO. In either package, create a BK7 singlet lens of 10 mm semi-diameter
and with 10 mm thickness. Set the wavelength to the (default) 0.55 microns and a single on-axis field point at
infinite object distance. Set the image distance to 200 mm. Make the first surface the stop insure that the lens
is fully filled (that is, that the entrance beam has a radius of 10 mm). Use the lens-maker's equation to
calculate initial glass curvatures assuming you want a symmetric, bi-convex lens with an effective focal length
of 200 mm. Get this working and examine the RMS spot size using the "Text" tab of the Spot Diagram analysis
tab (OpticStudio) or the Spd command of the text widnow (OSLO). You should find the lens is far from
diffraction limited, with a spot size of more than 100 microns.
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Chapter 28 Solutions
Physics for Scientists and Engineers, Vol. 1
Ch. 28 - Prob. 1PCh. 28 - Prob. 2PCh. 28 - Prob. 3PCh. 28 - Prob. 4PCh. 28 - Prob. 5PCh. 28 - Prob. 6PCh. 28 - Prob. 7PCh. 28 - Prob. 8PCh. 28 - Prob. 9PCh. 28 - Prob. 10P
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