According to Wolfram Mathematica: cos(50) = 0.6427876096865394;
But this code in Java:
System.out.println(Math.cos(50));
gives 0.9649660284921133.
What is wrong with java.lang.Math
?
Math.cos()
expects the parameter to be in radians. This will return the result you need:
Math.cos(Math.toRadians(50));
Math.cos()
uses radians, so to get your expected result you need to do
System.out.println(Math.cos(Math.toRadians(50)));
Degrees <> radians...........
1 degree = 0.0174532925 radians
but
part in your comment is why they are not equivalent ;) It's like saying kilos and stone are equivalent. They measure the same quantity, sure, but in different ways.
Most Java trigonometric functions expects parameters to be in radians. You can use Math.toRadians() to convert:
System.out.println(Math.cos(Math.toRadians(50)));
For me...
System.out.println(Math.cos(50));
System.out.println(Math.cos(new Double(50)));
System.out.println(Math.cos(Math.toRadians(50)));
System.out.println(Math.cos(Math.toRadians(new Double(50))));
returns
0.9649660284921133
0.9649660284921133
0.6427876096865394
0.6427876096865394
http://www.wolframalpha.com/input/?i=cos%2850deg%29
cos(50deg)
give same result as cos(50)
... so Wolfram is degree by default.
-1
was mainly due to this: I don't know exactly what the meaning of these results but for me...
, apart from it not being a proper answer to the question. Given your code, you seem to try to guess what is happening, instead of having an understanding for it. This is further demonstrated by this: Math.cos(Math.toDegrees(50))
You feed a function that expects radians the value, that you get after converting 50 radians to degrees, a value that is completely random.