University Physics Volume 1
18th Edition
ISBN: 9781938168277
Author: William Moebs, Samuel J. Ling, Jeff Sanny
Publisher: OpenStax - Rice University
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Chapter 1, Problem 89CP
The purpose of this problem is to show the entire concept of dimensional consistency can be summarized but the old saying “You can’t add apples and oranges.” It you have studied power series expansions in a calculus course, you know the standard mathematical funstions such as trigonometric functions, logarithms, and exponential function can be expressed as infinite sums of the form where the an are dimensionless constants for all n = 0, 1, 2, … and x is the argument of the function. (If you have not studied power series in calculus yet, just trust us.) Use this fact to explain why the requirement that all terms in an equation have the same dimensions is sufficient as a definition of dimensional consistency. That is, it actually implies the arguments of standard mathematical funstions must be dimensional consistency. That is, it actually implies the arguments of standard mathematical functions must be dimensionless, so it is not really necessary to make this latter condition a separate requirement of the definition of dimensional consistency as we have done in this section.
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The purpose of this problem is to show the entire concept of dimensional consistency can be
summarized but the old saying "You can't add apples and oranges." It you have studied power series
expansions in a calculus course, you know the standard mathematical funstions such as trigonometric
functions, logarithms, and exponential function can be expressed as infinite sums of the form where
the an are dimensionless constants for all n = 0, 1, 2, ... and x is the argument of the function. (If you
have not studied power series in calculus yet, just trust us.) Use this fact to explain why the
requirement that all terms in an equation have the same dimensions is sufficient as a definition of
dimensional consistency. That is, it actually implies the arguments of standard mathematical funstions
must be dimensional consistency. That is, it actually implies the arguments of standard mathematical
functions must be dimensionless, so it is not really necessary to make this latter condition a…
a) Estimate the number of breaths taken .during an average human lifetime Hint: Let we start by guessing that the typical human lifetime is about 70 years. Think about the average number of breaths that a person takes in 1 min. This number varies depending on whether the person is exercising, sleeping, angry, serene, and so forth. To the nearest order of magnitude, we shall choose 10 breaths per minute as our estimate. (This estimate is certainly closer to the true average value than an estimate of 1 breath per minute or 100 breaths per minute.) b) What if the average lifetime were estimated as 80 years instead of 70? ?Would that change our final estimate
So we take a pile of paper, we count the number of sheets, and obtain 226. Then, we measure how tall the pile is with a ruler: 24.0 mm.
As discussed in section 1, we could have a long argument about how much exactly should the uncertainty of this measurement be. Let’s settle to ± 0.5 mm
Chapter 1 Solutions
University Physics Volume 1
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