10-26 Exercise 3: Find roots of a quadratic equation

Question

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Write a program to find roots of a quadratic equation

A quadratic equation is a second order equation having a single variable. Any quadratic equation can be represented as where a, b and c are constants ( a can't be 0) and x is unknown variable.

寫一個找二次方程的求根程式

For Example

is a quadratic equation where a, b and c are 2, 5 and 3 respectively.

To calculate the roots of quadratic equation we can use below formula. There are two solutions of a quadratic equation.

使用下列公式:

x = (-b + sqrt(D))/(2*a)
x = (-b - sqrt(D))/(2*a)

where, D = (b*b-4*a*c) is Discriminant (判別式), which differentiate the nature of the roots of quadratic equation.

For the complex result (複數根):

realPart = -b/(2*a);
imaginaryPart =sqrt(-D)/(2*a);

Note: We have used sqrt() function to find square root which is in math.h library.

Example input 1:

1 2 1

Example output 1:

Roots of 1.00x^2 + 2.00x + 1.00 = 0 are real and same
x1 = x2 = -1.00

Example input 2:

1 -3 2

Example output 2:

Roots of 1.00x^2 + -3.00x + 2.00 = 0 are real and different
x1 = 2.00
x2 = 1.00

Example input 3:

1 2 2

Example output 3:

Roots of 1.00x^2 + 2.00x + 2.00 = 0 are complex and different
x1 = -1.00+1.00i
x2 = -1.00-1.00i

[Exercise] Coding (C) - asked Oct 26, 2017 in Chapter 5: Selection Statements by semicolon (5.2k points)
ID: 28934 - Available when: 2017-10-26 18:00 - Due to: Unlimited
reopened Oct 26, 2017 by thopd | 9.2k views

56 Answers

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fung2004067 · Answer 1 · 2017-10-28 14:21:39

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answered Oct 28, 2017 by fung2004067 (-214 points)

fung2004067 · Answer 2 · 2017-10-28 14:11:26

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answered Oct 28, 2017 by fung2004067 (-214 points)

Headshake · Answer 3 · 2017-10-27 17:12:52

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answered Oct 27, 2017 by Headshake (-281 points)

Headshake · Answer 4 · 2017-10-27 17:07:56

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answered Oct 27, 2017 by Headshake (-281 points)

hayley8712 · Answer 5 · 2017-10-27 12:37:48

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#include<stdio.h>
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#include<math.h>

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answered Oct 27, 2017 by hayley8712 (-249 points)

hayley8712 · Answer 6 · 2017-10-27 12:36:36

prog.c: In function 'main':
prog.c:8:11: warning: implicit declaration of function 'scanf' [-Wimplicit-function-declaration]
     while(scanf("%lf %lf %lf", &a, &b ,&c)==3)
           ^~~~~
prog.c:8:11: warning: incompatible implicit declaration of built-in function 'scanf'
prog.c:8:11: note: include '<stdio.h>' or provide a declaration of 'scanf'
prog.c:18:17: warning: implicit declaration of function 'printf' [-Wimplicit-function-declaration]
                 printf("Roots of %.2lfx^2 + %.2lfx + %.2lf = 0 are real and same\nx1 = x2 = %.2lf",a,b,c,x1);
                 ^~~~~~
prog.c:18:17: warning: incompatible implicit declaration of built-in function 'printf'
prog.c:18:17: note: include '<stdio.h>' or provide a declaration of 'printf'
prog.c:21:17: warning: incompatible implicit declaration of built-in function 'printf'
                 printf("Roots of %.2lfx^2 + %.2lfx + %.2lf = 0 are real and different\nx1 = %.2lf\nx2 = %.2lf",a,b,c,x1,x2);
                 ^~~~~~
prog.c:21:17: note: include '<stdio.h>' or provide a declaration of 'printf'
prog.c:29:13: warning: incompatible implicit declaration of built-in function 'printf'
             printf("Roots of %.2lfx^2 + %.2lfx + %.2lf = 0 are real and same\nx1 = x2 = %.2lf",a,b,c,x1);
             ^~~~~~
prog.c:29:13: note: include '<stdio.h>' or provide a declaration of 'printf'
prog.c:34:13: warning: incompatible implicit declaration of built-in function 'printf'
             printf("Roots of %.2lfx^2 + %.2lfx + %.2lf = 0 are real and same\nx1 = x2 = %.2lf",a,b,c,x1);
             ^~~~~~
prog.c:34:13: note: include '<stdio.h>' or provide a declaration of 'printf'
prog.c:41:13: warning: incompatible implicit declaration of built-in function 'printf'
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             ^~~~~~
prog.c:41:13: note: include '<stdio.h>' or provide a declaration of 'printf'

hayley8712 · Answer 7 · 2017-10-27 07:39:03

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#include<stdlib.h>
#include<math.h>

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answered Oct 27, 2017 by hayley8712 (-249 points)

hayley8712 · Answer 8 · 2017-10-26 22:54:25

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  *  * ** ** *     ** *** *   *    ** **  * * *** * * ***  *  ***  ****   *  ***  **  *  * *** of %.2lfx^2 + %.2lfx + %.2lf = 0 are real and same\nx1 = x2 =     **  **  ****  
*   ** **  *** * ***  *****   *      ******      *   ***  *****    ***   *    ** ***
**  * ** ** * ***   * *** **      *   ** *   * * *    ******  ** ** * ** *
 *   * * * **     * **   *      **  ***  **  *     **      ***   ******** ** * **
   * *           {
 **  * * ***   **    ***  * *** ** * *  * * *  *** * * ** *  *  * * *** * * ***  *** *   *     **  of %.2lfx^2 + %.2lfx + %.2lf = 0 are real and same\nx1 = x2 = *   ** **  ** ** ** * 
 * **  * *  ** **       **  * *   *   * ******** ***   * * * ***  ** **    ***
*****  *    **   ** *   * *    * **  *     *
*   ** *   ** *  *    ** ** ** **  ** ***      *   *  **   * *  **   ***  
* **            **        
            x1= *   * *
*  * *  *       **  *    **       x2= -x1;
* **   *  * *      *  **  **** ** **  *******    ** * * * * **** ** **** **    * * *  *  * of %.2lfx^2 + %.2lfx + %.2lf = 0 are complex and ** ***** = *   ** ** = *  ****  ** *  *    ****    *
  * *   * *** * * *******   * *  ***   ****  ** *
   * **   *   * *    *  *    
 ***      **     ** *     *   
** * ****   ** ***   **  *  * *** *   ****  **  * * 
 * **     *  * **** ***** **  0;
}

answered Oct 26, 2017 by hayley8712 (-249 points)

黃上豪 · Answer 9 · 2017-10-26 19:37:04

Hidden content!
* *  **      ***  *  *
 * * *     ** * *** *
int main(){
 *   **** *  ** *  ** *   ****** a,b,c;
 * * ****  * *  **  ***** * D;
 **  ** * *  ** *    *    *  *****  * *** ** %lf **  * **** ** *   *  *  * * *** 
*   **** ** *   *       *   **       - 4*a*c ;

*  ** * ********** *    ***   *** of %.2fx^2 + %.2fx + %.2f = 0     **  

* *  **   * * * *  * *  *** ** * **   
***  *** *   *   * *********  *** * ** * **  ***  * **  *  complex and   *    *  *      *
 *  ** * * * ***  * * **      * * *  ** *  * ***        *      ** = *** *  *  * * (-b) / (2*a) ), sqrt(-D) / (2*a) );
  **  *  ** *   **     ***** **      ***   *** ** *  *  ** * *    =  *   ***  *   *   (-b) / (2*a) ), sqrt(-D) / (2*a) );
 ***   *  *   * * * *
**  *    *  *  *******  **** if(D==0){
*   *     * * * ***  * * ** * *** **  ** **  ********* *** ** * *  * *   real and same\n");
****  * * ** ***  ** *   *** ***  * **  * *  * ** *  * ** **  **  = x2 = %.2f",( (-b) / (2*a) ) );
  *  *  **  ****       **
    ** *** **   * * ***  **  ***  *    
******       **  ****    ** * * *  **   * ***   ********* ***   *** real and **   * *   * *   
 *   **  *  ****   ****     * *  ***  ***   *  * **  **** * ***** *  ** = %.2f\n",( ((-b) + sqrt(D)) / (2*a) ) );
  *   ** *****  * * **  *  **     * **** ** **   * * * *** * = %.2f", ( ((-b) - sqrt(D)) / (2*a) ) );
***  * ** * *   * **** **  **  

 *    *  ****** ****   * ****    0;
}

answered Oct 26, 2017 by 黃上豪 (-116 points)

VincentXV · Answer 10 · 2017-10-26 19:30:37

Hidden content!
#include  ** * * * ** 
#include <math.h>
int main()
{
 * **   *** ** ***  *  ***   **** a,b,c,x,y,d;
  *      *  *  *      **** * *  **** *  %f    *   * * *** *   * *   **  
     ** *   *** * *  *  * **  **  * *** *
* ** *  *  *    **      *    *  ** **
  *** ****  ***   **   * ***** * * * *      *  
***  *  ***    ** * **   (d>0){
* *** * ***   * **    * ****** ***  ****      of %.2fx^2 + %.2fx + %.2f = 0 are real and  ** **   **** ** * *
**** * ****   **  ***** ****  *   * = %.2f\nx2 = %.2f",x,y);
* * *  **     *     ****  *
 ** * *   * *   *    * *  **  if (d==0){
  **** * ******   ****** ***** * **  * of %.2fx^2 + %.2fx + %.2f = 0 are real and *  ****        
*    **  **  ****  *  *    ** * *   * = x2 = %.2f",x);
   ***  * ** ** * * *  ** ***
    * *   *** **  *   **    **   
*** *  ** ** * **   **  * * *
 **   * **** **** **** *  * ** ** ******** * of %.2fx^2 + %.2fx + %.2f = 0 are complex and      * * *  *    
***      ** *  *  * ****** * ** *   ***
 *    *** ***    * *  *    *  * *   **** *   = ** *****  ** **  
*      *  ** *  ** *  ** * *    *  * **  = *** * *  ***** * 
****  *  *   *    * ***  

   ** **  *****  * * * *********  0;
}

answered Oct 26, 2017 by VincentXV (54 points)

10-26 Exercise 3: Find roots of a quadratic equation

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