Temperature conversion: Difference between revisions
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=={{header|Python}}== |
=={{header|Python}}== |
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<lang python>Python 3.3.0 (v3.3.0:bd8afb90ebf2, Sep 29 2012, 10:57:17) [MSC v.1600 64 bit (AMD64)] on win32 |
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Type "copyright", "credits" or "license()" for more information. |
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k = float(input('K ? ')) |
k = float(input('K ? ')) |
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print("%g Kelvin = %g Celsius = %g Fahrenheit = %g Rankine degrees." |
print("%g Kelvin = %g Celsius = %g Fahrenheit = %g Rankine degrees." |
Revision as of 19:44, 12 February 2013
There are quite a number of temperature scales. For this task we will concentrate on 4 of the perhaps best-known ones: Kelvin, Celcius, Fahrenheit and Rankine.
The Celcius and Kelvin scales have the same magnitude, but different null points.
0 degrees Celcius corresponds to 273.15 kelvin.
0 kelvin is absolute zero.
The Fahrenheit and Rankine scales also have the same magnitude, but different null points.
0 degrees Fahrenheit corresponds to 459.67 degrees Rankine.
0 degrees Rankine is absolute zero.
The Celcius/Kelvin and Fahrenheit/Rankine scales have a ratio of 5 : 9.
Write code that accepts a value of kelvin, converts it to values on the three other scales and prints the result. For instance:
K 21.00 C -252.15 F -421.87 R 37.80
D
<lang d>import std.stdio, std.conv, std.string;
void main(string[] args) {
if (args.length == 2 && isNumeric(args[1])) { immutable kelvin = to!double(args[1]); if (kelvin >= 0) { writefln("K %2.2f", kelvin); writefln("C %2.2f", kelvinToCelsius(kelvin)); writefln("F %2.2f", kelvinToFahrenheit(kelvin)); writefln("R %2.2f", kelvinToRankine(kelvin)); } else writefln("%2.2f K is below absolute zero", kelvin); }
}
double kelvinToCelsius(in double k) pure nothrow {
return k - 273.15;
}
double kelvinToFahrenheit(in double k) pure nothrow {
return k * 1.8 - 459.67;
}
double kelvinToRankine(in double k) pure nothrow {
return k * 1.8;
}
unittest {
import std.math; assert(approxEqual(kelvinToCelsius(21.0), -252.15)); assert(approxEqual(kelvinToFahrenheit(21.0), -421.87)); assert(approxEqual(kelvinToRankine(21.0), 37.8));
}</lang>
- Output:
K 21.00 C -252.15 F -421.87 R 37.80
Python
<lang python>>>> while True: k = float(input('K ? ')) print("%g Kelvin = %g Celsius = %g Fahrenheit = %g Rankine degrees." % (k, k - 273.15, k * 1.8 - 459.67, k * 1.8))
K ? 21.0
21 Kelvin = -252.15 Celsius = -421.87 Fahrenheit = 37.8 Rankine degrees.
K ? 222.2
222.2 Kelvin = -50.95 Celsius = -59.71 Fahrenheit = 399.96 Rankine degrees.
K ?
Traceback (most recent call last):
File "<pyshell#4>", line 2, in <module> k = float(input('K ? '))
KeyboardInterrupt >>> </lang>