Question

Prove that : The sum of complex number and its conjugate is real​

Answer 1

Answer:

Let z  

1

​

=x  

1

​

+iy  

1

​

 and z  

2

​

=x  

2

​

+iy  

2

​

 be two complex numbers.

First suppose z  

1

​

,z  

2

​

 are conjugate of each other. Then,  

z  

2

​

=  

z

ˉ

 

1

​

=x  

1

​

+iy  

1

​

 

Hence z  

1

​

+z  

2

​

=z  

1

​

+  

z

ˉ

 

1

​

=2x  

1

​

, which is real and z  

1

​

z  

2

​

=z  

1

​

 

z

ˉ

 

1

​

=(x  

1

​

+iy  

1

​

)(x  

1

​

−iy  

1

​

)=x  

1

​

 

2

+y  

1

​

 

2

, which is also real.

Thus sum z  

1

​

+z  

2

​

 and product z  

1

​

z  

2

​

 are real when z  

1

​

 and z  

2

​

 are conjugate complex.

Now let the sum z  

1

​

+z  

2

​

 and  product z  

1

​

z  

2

​

 be real. We have z  

1

​

+z  

2

​

=(x  

1

​

+x  

2

​

)+i(y  

1

​

+y  

2

​

)  

and z  

1

​

z  

2

​

=x  

1

​

x  

2

​

−y  

1

​

y  

2

​

+i(x  

1

​

y  

2

​

+x  

2

​

y  

1

​

)  

Since z  

1

​

+z  

2

​

 and z  

1

​

z  

2

​

 are both real, we must have y  

1

​

+y  

2

​

=0 and x  

1

​

y  

2

​

+x  

2

​

+y  

1

​

=0

These give y  

2

​

=−y  

1

​

 and x  

2

​

=x  

1

​

.

Hence z  

2

​

=x  

2

​

+iy  

2

​

=x  

1

​

−iy  

1

​

=  

z

ˉ

 1

​, that is, z  

1

​  and z  

2

​  are conjugate complex.

Step-by-step explanation:

Answer 2

Step-by-step explanation:

let z= x+iy

it's conjugate is z=x-iy

adding these two

z =x+iy+x-iy

( imaginary term becomes zero)

so , z = 2x

which is a real term

hence it is proved...