Difference between revisions of "2566: Decorative Constants"
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:[A small panel only with text. Written as an excerpt from a mathematical text book. Begins with a number for an equation, then follows the equation written in larger letters and symbols. And below are explanations of each term in the equation.] | :[A small panel only with text. Written as an excerpt from a mathematical text book. Begins with a number for an equation, then follows the equation written in larger letters and symbols. And below are explanations of each term in the equation.] | ||
:Eq. 4-15 | :Eq. 4-15 | ||
| − | :<big>T = Dm<sub>0</sub>(r<sub>out</sub> - r<sub>in</sub>)<sup>mu(bar)</ | + | :<big>T = Dm<sub>0</sub>(r<sub>out</sub> - r<sub>in</sub>)<sup>mu(bar)</sub></big> |
:T: Net rate | :T: Net rate | ||
:m<sub>0</sub>: Unit mass | :m<sub>0</sub>: Unit mass | ||
Revision as of 22:55, 10 January 2022
| Decorative Constants |
 Title text: Arguably, the '1/2' in the drag equation is purely decorative, since drag coefficients are already unitless and could just as easily be half as big. Some derivations give more justification for the extra 1/2 than others, but one textbook just calls it 'a traditional tribute to Euler and Bernoulli.' |
Explanation
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This explanation may be incomplete or incorrect: Created by a DECORATIVE BOT - Please change this comment when editing this page. Do NOT delete this tag too soon. If you can address this issue, please edit the page! Thanks. |
Transcript
- [A small panel only with text. Written as an excerpt from a mathematical text book. Begins with a number for an equation, then follows the equation written in larger letters and symbols. And below are explanations of each term in the equation.]
- Eq. 4-15
- T = Dm0(rout - rin)mu(bar)</sub></big>
- T: Net rate
- m0: Unit mass
- (rout-rin): Flow balance
- D, mu(bar): Decorative
- [Caption below the panel:]
- Math tip: if one of your equations ever looks too simple, try adding some purely decorative constants.
{{comic discussion}
