= ax2 + bx + c. • Ask the user for the coefficients a, b and c of a quadratic function f (x) Output the results for x values of (0, 1, 2, .., 9), then x values of (10, 100, .., 10,000,000). • You must write two functions: 1. A function that returns the value of the quadratic function given the coefficients and the value x. 2. A function that prints the value of the quadratic function given the coefficients and the value x. This function will call the first function. • You must use a for loop for the x values 0 to 9, and a while loop for the powers of ten. Example output looks like this: Enter coefficient a: 2.0 Enter coefficient b: 4.0 Enter coefficient c: 2.0 Parabola y -2.0 x^2 + 4.0 x + 2.0 At x - 0, y = 2.0 At x - 1, y - 8.0 At x = 2, y = 18.0 At x = 3, y = 32.0 At x - 4, y = 50.0 At x = 5, y - 72.0 At x = 6, y = 98.0 At x = 7, y = 128.0 At x = 8, y = 162.0 At x = 9, y = 200.0 At x - 10 At x = 100 At x = 1000 At x = 10000 At x - 100000 At x - 1000000 At x - 10000000 , y = 200000040000002.0 y - 242.0 y = 20402.0 y = 2004002.0 y = 200040002.0 y- 20000400002.0 y - 2000004000002.0

I attached the code & output. Could you make sure the code is correct.

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• Ask the user for the coefficients a, b and c of a quadratic function f (x) = ax² + bx + c. Output the results for x values of (0, 1, 2, ..., 9), then x values of (10, 100, ..., 10,000,000). • You must write two functions: 1. A function that returns the value of the quadratic function given the coefficients and the value x. 2. A function that prints the value of the quadratic function given the coefficients and the value x. This function will call the first function. • You must use a for loop for the x values 0 to 9, and a while loop for the powers of ten. Example output looks like this: Enter coefficient a: 2.0 Enter coefficient b: 4.0 Enter coefficient c: 2.0 Parabola y -2.0 x^2 + 4.0 x + 2.0 At x - 0, y = 2.0 At x = 1, y = 8.0 At x = 2, y = 18.0 At x = 3 , y = 32.0 At x - 4 , y - 50.0 At x = 5, y = 72.0 At x = 6 , At x = 7 At x = 8 , y = 162.0 At x = 9 At x = 10 At x = 100 At x = 1000 = 98.0 y = 128.0 y = 200.0 y = 242.0 y = 20402.0 y = 2004002.0 y - 200040002.0 At x = 10000 At x - 100000 , y - 20000400002.0 At x = 1000000 , y = 2000004000002.0 At x = 10000000 , y = 200000040000002.Ø

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Code screenshot # function that returns the value of the quadratic function given the coefficients and the value x 2 def quadratic(a, b, s, x): return a * x ** 2 + b * x + c # function to print the value of a quadratic function given the coefficients and the value x 6 def print_quad(a, b, s, x): print(f"At x = {x} , y = {quadratic(a, b, c, x)}") 9 # get the coefficients from the user 10 a - float(input("Enter coefficient a: ")). 11 b - float(input("Enter coefficient b: ")) 12 s - float(input("Enter coefficient c: ")) 13 14 # print the quadratic equation 15 print(f"Parabola y = {a} x^2 + {b} x + {c}") 16 17 # print the value of x and quadratic function for x values of (0, 1, 2, ... , 9) 18 for x in range(10): 19 20 21 # print the value of x and quadratic function for x values of (10, 100, ... , 10_000_000) 22 x - 10 23 power = 1 24 while power < 8: I print_quad(a, b, c, x) print_quad(a, b, c, x**power) power + 1 25 26 27 RMAL plot_quad.py Sample output (base) ~/chegg/src/526 $ python plot_quad.py Enter coefficient a: 2.0 Enter coefficient b: 4.0 Enter coefficient c: 2.0 Parabola y = 2.0 x^2 + 4.0 x + 2.0 At x = 0 At x = 1 , y = 8.0 At x = 2 , y = 18.0 At x = 3 , y = 32.0 At x = 4 , y = 50.0 At x = 5 , y = 72.0 At x = 6 , y = 98.0 At x = 7 , y = 128.0 At x = 8 At x = 9 , y = 200.0 At x = 10 At x = 100 At x = 1000 , y = 2004002.0 At x = 10000 At x = 100000 , y = 20000400002.0 At x = 1000000 At x = 10000000 , y = 200000040000002.0 y = 2.0 y = 162.0 y = 242.0 , y = 20402.0 y = 200040002.0 , y = 2000004000002.0