There are given code:# TODO: Import math moduledef quadratic_formula(a, b, c):# TODO: Compute the quadratic formula results in variables x1 and x2return (x1, x2)def print_number(number, prefix_str):if float(int(number)) == number:print("{}{:.0f}".format(prefix_str, number))else:print("{}{:.2f}".format(prefix_str, number))if __name__ == "__main__":input_line = input()split_line = input_line.split(" ")a = float(split_line[0])b = float(split_line[1])c = float(split_line[2])solution = quadratic_formula(a, b, c)print("Solutions to {:.0f}x^2 + {:.0f}x + {:.0f} = 0".format(a, b, c))print_number(solution[0], "x1 = ")print_number(solution[1], "x2 = ") Implement the quadratic_formula() function. The function takes 3 arguments, a, b, and c, and computes the two results of the quadraticformula:-6+ v6² – 4ac2а-b – V6² – 4acX22аThe quadratic_formula() function returns the tuple (x1, x2). Ex: When a = 1, b = -5, and c = 6, quadratic_formula() returns (3, 2).Code provided in main.py reads a single input line containing values for a, b, and C, separated by spaces. Each input is converted to a floatand passed to the quadratic_formula() function.Ex: If the input is:2 -3 -77the output is:Solutions to 2x^2 + -3x + -77= 0x17x2-5.50

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Answered: There are given code: # TODO: Import…

Database System Concepts

7th Edition

ISBN:9780078022159

Author:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan

Publisher:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan

Chapter1: Introduction

Section: Chapter Questions

Problem 1PE

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Question

There are given code:

# TODO: Import math module

def quadratic_formula(a, b, c):
# TODO: Compute the quadratic formula results in variables x1 and x2
return (x1, x2)

def print_number(number, prefix_str):
if float(int(number)) == number:
print("{}{:.0f}".format(prefix_str, number))
else:
print("{}{:.2f}".format(prefix_str, number))

if __name__ == "__main__":
input_line = input()
split_line = input_line.split(" ")
a = float(split_line[0])
b = float(split_line[1])
c = float(split_line[2])
solution = quadratic_formula(a, b, c)
print("Solutions to {:.0f}x^2 + {:.0f}x + {:.0f} = 0".format(a, b, c))
print_number(solution[0], "x1 = ")
print_number(solution[1], "x2 = ")

Implement the quadratic_formula() function. The function takes 3 arguments, a, b, and c, and computes the two results of the quadratic
formula:
-6+ v6² – 4ac
2а
-b – V6² – 4ac
X2
2а
The quadratic_formula() function returns the tuple (x1, x2). Ex: When a = 1, b = -5, and c = 6, quadratic_formula() returns (3, 2).
Code provided in main.py reads a single input line containing values for a, b, and C, separated by spaces. Each input is converted to a float
and passed to the quadratic_formula() function.
Ex: If the input is:
2 -3 -77
the output is:
Solutions to 2x^2 + -3x + -77
= 0
x1
7
x2
-5.50

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