My program doesn't seem to give me the right solutions. Sometimes it does, sometimes it doesn't. I can't find my error. Any Suggestions?

``````import math

a,b,c = input("Enter the coefficients of a, b and c separated by commas: ")

d = b**2-4*a*c # discriminant

if d < 0:
print "This equation has no real solution"
elif d == 0:
x = (-b+math.sqrt(b**2-4*a*c))/2*a
print "This equation has one solutions: ", x
else:
x1 = (-b+math.sqrt(b**2-4*a*c))/2*a
x2 = (-b-math.sqrt(b**2-4*a*c))/2*a
print "This equation has two solutions: ", x1, " and", x2
``````

This line is causing problems:

``````(-b+math.sqrt(b**2-4*a*c))/2*a
``````

`x/2*a` is interpreted as `(x/2)*a`. You need more parentheses:

``````(-b + math.sqrt(b**2 - 4*a*c)) / (2 * a)
``````

Also, if you're already storing `d`, why not use it?

``````x = (-b + math.sqrt(d)) / (2 * a)
``````
• Wow... I was trying to figure it out for more than an hour. Thank you so much Blender. And the second part with the "d" variable is also helpful.
– user2116336
Mar 13, 2013 at 23:36

Here you go this should give you the correct answers every time!

``````a = int(input("Enter the coefficients of a: "))
b = int(input("Enter the coefficients of b: "))
c = int(input("Enter the coefficients of c: "))

d = b**2-4*a*c # discriminant

if d < 0:
print ("This equation has no real solution")
elif d == 0:
x = (-b+math.sqrt(b**2-4*a*c))/2*a
print ("This equation has one solutions: "), x
else:
x1 = (-b+math.sqrt((b**2)-(4*(a*c))))/(2*a)
x2 = (-b-math.sqrt((b**2)-(4*(a*c))))/(2*a)
print ("This equation has two solutions: ", x1, " or", x2)
``````
• for d == 0, you should put 2*a in parentheses Sep 14, 2021 at 23:59

How about accepting complex roots as solutions?

``````import math

# User inserting the values of a, b and c

a = float(input("Insert coefficient a: "))
b = float(input("Insert coefficient b: "))
c = float(input("Insert coefficient c: "))

discriminant = b**2 - 4 * a * c

if discriminant >= 0:
x_1=(-b+math.sqrt(discriminant))/2*a
x_2=(-b-math.sqrt(discriminant))/2*a
else:
x_1= complex((-b/(2*a)),math.sqrt(-discriminant)/(2*a))
x_2= complex((-b/(2*a)),-math.sqrt(-discriminant)/(2*a))

if discriminant > 0:
print("The function has two distinct real roots: ", x_1, " and ", x_2)
elif discriminant == 0:
print("The function has one double root: ", x_1)
else:
print("The function has two complex (conjugate) roots: ", x_1, " and ", x_2)
``````
• you made same mistake, make it (2*a), kid Oct 4, 2020 at 19:14
``````# syntaxis:2.7
# a*x**2 + b*x + c = 0

d = b**2-4*a*c # discriminant

if d < 0:
print 'No solutions'
elif d == 0:
x1 = -b / (2*a)
print 'The sole solution is',x1
else: # if d > 0
x1 = (-b + math.sqrt(d)) / (2*a)
x2 = (-b - math.sqrt(d)) / (2*a)
print 'Solutions are',x1,'and',x2
``````

Below is the Program to Solve Quadratic Equation.

For Example: Solve x2 + 3x – 4 = 0

x2 + 3x – 4 = (x + 4)(x – 1) = 0

we already know that the solutions are x = –4 and x = 1. ``````    # import complex math module
import cmath

a = 1
b = 5
c = 6

# To take coefficient input from the users
# a = float(input('Enter a: '))
# b = float(input('Enter b: '))
# c = float(input('Enter c: '))

# calculate the discriminant
d = (b**2) - (4*a*c)

# find two solutions
sol1 = (-b-cmath.sqrt(d))/(2*a)
sol2 = (-b+cmath.sqrt(d))/(2*a)

print('The solution are {0} and {1}'.format(sol1,sol2))
``````
``````import math
a = int(input("Enter the coefficients of a: "))
b = int(input("Enter the coefficients of b: "))
c = int(input("Enter the coefficients of c: "))

d = b**2-4*a*c # discriminant

if d < 0:
print ("This equation has no real solution")
elif d == 0:
x = (-b+math.sqrt(b**2-4*a*c))/2*a
print (("This equation has one solutions: "), x)
#add the extra () above or it does not show the answer just the text.
else:
x1 = (-b+math.sqrt((b**2)-(4*(a*c))))/(2*a)
x2 = (-b-math.sqrt((b**2)-(4*(a*c))))/(2*a)
print ("This equation has two solutions: ", x1, " or", x2)
``````

``````a=float(input("enter the 1st number : "))
b=float(input("enter the 2nd number : "))
c=float(input("enter the 3rd number : "))
``````

calculate the discriminant

``````d = (b**2) - (4*a*c)
``````

possible solution are

``````sol_1 = (-b-(0.5**d))/(2*a)
sol_2 = (-b+(0.5**d))/(2*a)
``````

print the result

``````print('The solution are  %0.f,%0.f'%(sol_1,sol_2))
``````

``````from math import sqrt
s = lambda a,b,c: {(-b-sqrt(d))/2*a,(-b+sqrt(d))/2*a} if (d:=b**2-4*a*c)>=0 else {}
roots_set = s(int(input('a=')),int(input('b=')),int(input('c=')))
print(roots_set,f'number of roots {len(roots_set)}')
``````

one line python solve quadratic equations video

One can use ready made numpy library for the numerical (approximate) solution, it also can solve roots with higher order polynomials: np.roots Example taken from wikipedia.

``````import numpy as np
# 2*x**2 + 4*x -4 = 0
coeff = [2, 4, -4]
print(f"roots: {np.roots(coeff)}")
``````
``````<code>
import cmath
import math
print(" we are going to programming second grade equation in python")
print(" a^2 x + b x + c =0")

num1 = int(input(" enter A please : "))
num2 = int(input(" enter B please : "))
num3 = int(input(" enter c please : "))
v = num2*num2 - 4 *num1 * num3
print(v)
if v < 0 :
print("wrong values")
else:
print("root of delta =", v)
k= math.sqrt(v)

def two_sol(x,y) :
x_f= (-y + v)/(4*x)
x_s =(-y - v)/(4*x)
return x_f , x_s

def one_sol(x):
x_f = (-y + v) / (4 * x)

if v >0 :
print("we have two solution :" ,two_sol(num1,num2))
elif v == 0:
print( "we have one solution :" , one_sol(y))
else:
print(" there is no solution !!")
</code>
``````