By Charles Kittel
ISBN-10: 0070048800
ISBN-13: 9780070048805
Preface
This is a two-year straight forward university physics direction for college students majoring in technological know-how and engineering. The purpose of the writers has been to provide undemanding physics so far as attainable within the approach during which it really is utilized by physicists engaged on the leading edge in their box. we have now sought to make a path that may vigorously emphasize the rules of physics. Our particular goals have been to introduce coherently into an common curriculum the information of unique relativity, of quantum physics, and of statistical physics.
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Extra info for Mechanics (Berkeley Physics Course, Vol. 1)
Example text
14159.... Geometrical measurement is basic to physics, and we must decide such questions before proceeding to use euclidean or any other geometry in the description of nature. Here certainly is a question about the universe: Can we assume for physical measurements the truth of the axioms and theorems of Euclid? We can say only a few simple things about the experimental properties of space without becoming involved in difficult mathematics. The most famous theorem in all mathematics is that attributed to Pythagoras: For a right-angled triangle the square of the hypotenuse equals the sum of the squares of the ad;acent sides (Fig.
_10- 29 g/cm a, equivalent to 10 hydrogen atoms/mo, (c) The ratio of the radius of the known universe to that of a proton. 7 X 10- 24 g. 2, Signals across a proton. Estimate the time required for a signal traveling with the speed of light to move a distance equal to the diameter of a proton. Take the diameter of the Introduction proton to be 2 X 1O~13 em. ) 3. Distance of Sirius. The parallax of a star is one-half the angle subtended at the star by the extreme points in the earth's orbit around the sun.
But we shall not treat such matters further at this level of our study. PROBLEMS 1. The known universe. Using information in the text, estimate the following: (a) The total mass in the known universe. Ans. :::::;10 56 g. (b) The average density of matter in the universe. Ans. _10- 29 g/cm a, equivalent to 10 hydrogen atoms/mo, (c) The ratio of the radius of the known universe to that of a proton. 7 X 10- 24 g. 2, Signals across a proton. Estimate the time required for a signal traveling with the speed of light to move a distance equal to the diameter of a proton.
Mechanics (Berkeley Physics Course, Vol. 1) by Charles Kittel
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