gibson:teaching:spring-2016:math445:lab1
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gibson:teaching:spring-2016:math445:lab1 [2016/01/25 11:39] gibson |
gibson:teaching:spring-2016:math445:lab1 [2016/01/25 12:01] (current) gibson |
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| **Problem 1:** Evaluate these Matlab expressions in your head and write down the answer. | **Problem 1:** Evaluate these Matlab expressions in your head and write down the answer. | ||
| Then type them into Matlab and see how Matlab evaluates them. If you made a mistake, figure out what it was. | Then type them into Matlab and see how Matlab evaluates them. If you made a mistake, figure out what it was. | ||
| + | |||
| + | 2/3 | ||
| 25/4*4 | 25/4*4 | ||
| Line 31: | Line 33: | ||
| tangent of $\pi$ | tangent of $\pi$ | ||
| + | **Problem 3:** Are any of your answers for problems 1 and 2 surprising? Which, and why? | ||
| - | **Problem 3:** Wind chill factor: The WCF supposedly conveys how cold it feels with a given air | + | **Problem 4:** Wind chill factor: The WCF supposedly conveys how cold it feels with a given air |
| temperature T (degrees Farenheit) and wind speed V (miles per hour). A formula | temperature T (degrees Farenheit) and wind speed V (miles per hour). A formula | ||
| for WCF is | for WCF is | ||
| <latex> | <latex> | ||
| - | WCF = 35.7 + 0.6 T - 35.7 V^{0.16} + 0.43 \; T \; V^{0.16} | + | WCF = 35.74 + 0.6215 T - 35.75 V^{0.16} + 0.4275 \; T \; V^{0.16} |
| </latex> | </latex> | ||
| Line 47: | Line 50: | ||
| **(b)** T = 45 F and V = 0 mph. | **(b)** T = 45 F and V = 0 mph. | ||
| - | **Problem 4:** The geometric mean g of n numbers $x_1, x_2, \ldots, x_n$ is given by | + | **Problem 5:** The geometric mean g of n numbers $x_1, x_2, \ldots, x_n$ is given by |
| \begin{eqnarray*} | \begin{eqnarray*} | ||
| Line 65: | Line 68: | ||
| **(b)** Which is better for the investor, a steady 5% per year return on investment, or alternating between 0% and 10% year by year? | **(b)** Which is better for the investor, a steady 5% per year return on investment, or alternating between 0% and 10% year by year? | ||
| | | ||
| - | **Problem 5:** The astoundingly brilliant but short-lived mathematician [[http://en.wikipedia.org/wiki/Srinivasa_Ramanujan | Srinivasa Ramanujan]] devised the following very powerful formula for for $1/\pi$ | + | **Problem 6:** The astoundingly brilliant but short-lived mathematician [[http://en.wikipedia.org/wiki/Srinivasa_Ramanujan | Srinivasa Ramanujan]] devised the following very powerful formula for for $1/\pi$ |
| \begin{eqnarray*} | \begin{eqnarray*} | ||
gibson/teaching/spring-2016/math445/lab1.1453750792.txt.gz · Last modified: 2016/01/25 11:39 by gibson
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