I am trying to make a basic tool to make my everyday easier, solving some assignments for me. Unfortunately, I can't figure out how to make it calculate in degrees when tangent is being used.

My code:

``````import math

class Astro():
def start(self):
velocity = input("What is the galaxy's velocity? (m/s) \n")
peculiar = (float(velocity) - 938600) ** 2
mass = (3 * float(peculiar) * (10 ** 11) * 50 * (10 ** 6) * (8 * (180 / math.pi))
* 9.46 * (10 ** 15)) / (2 * 6.67 * (10 ** -11))
print("The galaxy's mass is " + str(mass) + " kg. \n")

if __name__ == '__main__':
sup = Astro()
sup.start()
``````

EDIT: Sorry for the lack of context; this is about calculating the masses of galaxies using 2 functions, the first one, line 7 to get the peculiar velocity, and the second one in lines 8-9 to get the actual mass of the considered galaxy.

SOLVED: math.tan(8 * pi / 180)

Thank you for all your help!

• It looks like you have an error in your code, masse should be mass on line 10. Jan 26 '18 at 16:09
• Please update the question with all the information as text in the question. Links to other sites are not a sustainable way to build Stackoverflow. Jan 26 '18 at 16:09

``````answer = tan(angle * pi / 180)
``````

to use your angle in degrees into a trig function. Or try

``````answer = atan(number) * 180 / pi
``````

The `math` package has the functions `radians` and `degrees` but under the hood these are just:

``````def radians(deg):
return deg * pi / 180

return rad * 180 / pi
``````

Here is a wrapper you can use to make degree-using trig functions (just had it lying around somewhere, although I use `numpy` instead of `math`)

``````import math
import itertools
import functools

def _use_deg(f, arc = False):
if not arc:
def df(*args):
args = list(args)
for index, value in enumerate(args):
try:
except TypeError:
pass
return f(*args)
else:
def df(*args):
return math.degrees(f(*args))
return functools.wraps(f)(df)

sind = _use_deg(math.sin)
cosd = _use_deg(math.cos)
tand = _use_deg(math.tan)
arcsind = _use_deg(math.asin, True)
arccosd = _use_deg(math.acos, True)
arctand = _use_deg(math.atan, True)
arctan2d = _use_deg(math.atan2, True)
``````

You don't want to get in a fight with the math library. Let the math library give you an answer in radians, then multiply it's answer by `180/math.pi` to get degrees.