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Conversions from Fahrenheit to Celsius | |
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Society
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Conversions from Fahrenheit to Celsius |
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Algorithms for Mental Conversions between the Fahrenheit and Celsius Scales by Robert A. Warren Yes, quick mental conversions can be made between the Fahrenheit and Celsius scales, using the algorithms presented in this paper. But before these algorithms are presented, some background material is needed. The standard equations that are used for conversions between the Fahrenheit and Celsius scales are the following:
The problem associated with the use of these equations is that they are hard to remember; it is easy to confuse the form of the one equation with the form of the other. Fortunately there are better conversion equations and algorithms, developed by the author, that are easy to remember and easy to keep straight. The author refers to these equations and algorithms as the AMS equations and algorithms. AMS stands for, "add, multiply, subtract". These letters could also be thought to represent the words, "A Mistake-proof System". The AMS algorithms are based on the fact that - 40 degrees Celsius = - 40 degrees Fahrenheit. When 40 degrees is added to a temperature (Fahrenheit or Celsius) we obtain the distance in degrees from the top of the mercury or alcohol line in the thermometer (assuming that it is a liquid thermometer) to the common point on the Fahrenheit and Celsius scales. By using the appropriate multiplier (5/9 or 9/5) we move from one scale to the other. By then subtracting 40 degrees, we obtain the difference in degrees between 0 degrees on the new scale and the top of the line of liquid in the thermometer. The algorithm for conversion from Fahrenheit to Celsius is the following:
The algorithm for conversion from Celsius to Fahrenheit is the following:
As one can see, the algorithm for converting from Fahrenheit to Celsius is almost identical to the algorithm for converting from Celsius to Fahrenheit. The only difference between the two algorithms is the multiplier. We multiply by 5/9 when going from Fahrenheit to Celsius and by 9/5 when going from Celsius to Fahrenheit. One way to remember which multiplier to use is to remember that Fahrenheit temperature values are almost always larger in magnitude than the equivalent Celsius temperatures. Thus to obtain larger values (Fahrenheit values) we multiply by a number (the number 9/5) larger than one. To obtain smaller values (Celsius values) we multiply by a number (the number 5/9) smaller than one. If we use as multipliers, 2 (instead of 9/5) and 1/2 (instead of 5/9) in the AMS conversion algorithms, we will only be introducing about 10% error, and this will make the calculations simple enough that the conversions can be made mentally. Although the amount of error introduced by the use of these approximate multipliers is only about 10%, the amount of error in the final answer will sometimes be a much greater percentage. Thus it is desirable to include a correction term into the calculations. The mental AMS conversion algorithms involve the use of a correction term to obtain a highly accurate final answer. The mental AMS algorithm for conversion from Fahrenheit to Celsius is the following:
The mental AMS algorithm for conversion from Celsius to Fahrenheit is the following:
Part 2: Example calculations. Let’s run through the steps required to convert 100 degrees Celsius to a Fahrenheit temperature. Example problem #1.
We know that this answer is correct.
Let’s run through the steps required to convert 0 degrees Celsius to a Fahrenheit temperature. Example problem #2.
We know that this answer is correct.
Let’s run through the steps required to convert 212 degrees Fahrenheit to a Celsius temperature. Example problem #3.
We know that this answer is a very close approximation. Let’s run through the steps required to convert 32 degrees Fahrenheit to a Celsius temperature. Example problem #4.
We know that this answer is a very close approximation. Let’s run through the steps required to convert - 40 degrees Fahrenheit to a Celsius temperature. Example problem #5.
We know that this answer correct. From the above example conversions, we can see that the mental AMS conversions from Celsius to Fahrenheit give exactly correct answers. The mental AMS conversions from Fahrenheit to Celsius give answers that are very close approximations for every temperature except - 40 degrees. The further one moves from - 40 degrees in either direction, the greater the degree of error in these conversions. For most purposes, the slight degree of error in the mental AMS algorithms when going from Celsius to Fahrenheit should be inconsequential.
Part 3: The AMS temperature conversion equations The AMS temperature conversion equations are the equation equivalent of the above algorithms. These equations are will now be derived from the standard temperature conversion equations. The standard equation for conversion from Celsius to Fahrenheit is the following:
Performing some manipulations…
We obtain the AMS equation for conversions from Celsius to Fahrenheit
The standard equation for conversion from Fahrenheit to Celsius is the following:
Performing some manipulations…
We obtain the AMS equation for conversions from Celsius to Fahrenheit
These AMS temperature conversion equations have the advantage of being easier to remember than the standard temperature conversion equations. Putting these two AMS temperature conversion equations side-by-side, we can see that they both have the same basic form.
The material in this paper
was taken from or based on my copyrighted paper. "Superior Algorithms
and Equations for Conversions between the Fahrenheit and Celsius Scales".
Reprinted from:
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