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Think of the complex numbers as points on a coordinate system. Instead of the usual x-axis you have the real numbers, instead of the y-axis, you have the imaginary numbers.

The real numbers are on the horizontal axis.

The imaginary numbers are on the vertical axis.

The complex numbers are any number on the plane.

The non-real complex are, of course, any complex numbers that are not on the real number axis - not on the horizontal axis.

Think of the complex numbers as points on a coordinate system. Instead of the usual x-axis you have the real numbers, instead of the y-axis, you have the imaginary numbers.

The real numbers are on the horizontal axis.

The imaginary numbers are on the vertical axis.

The complex numbers are any number on the plane.

The non-real complex are, of course, any complex numbers that are not on the real number axis - not on the horizontal axis.

Think of the complex numbers as points on a coordinate system. Instead of the usual x-axis you have the real numbers, instead of the y-axis, you have the imaginary numbers.

The real numbers are on the horizontal axis.

The imaginary numbers are on the vertical axis.

The complex numbers are any number on the plane.

The non-real complex are, of course, any complex numbers that are not on the real number axis - not on the horizontal axis.

Think of the complex numbers as points on a coordinate system. Instead of the usual x-axis you have the real numbers, instead of the y-axis, you have the imaginary numbers.

The real numbers are on the horizontal axis.

The imaginary numbers are on the vertical axis.

The complex numbers are any number on the plane.

The non-real complex are, of course, any complex numbers that are not on the real number axis - not on the horizontal axis.

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14y ago

Think of the complex numbers as points on a coordinate system. Instead of the usual x-axis you have the real numbers, instead of the y-axis, you have the imaginary numbers.

The real numbers are on the horizontal axis.

The imaginary numbers are on the vertical axis.

The complex numbers are any number on the plane.

The non-real complex are, of course, any complex numbers that are not on the real number axis - not on the horizontal axis.

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Q: What is the difference between a complex number and a non real complex number?
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Difference between real and rational number?

Rational numbers are numbers that can be written as a fraction. Real numbers are any number, including irrationals.


Is every real number a complex number?

A complex number is a number of the form a + bi, where a and b are real numbers and i is the principal square root of -1. In the special case where b=0, a+0i=a. Hence every real number is also a complex number. And in the special case where a=0, we call those numbers pure imaginary numbers. Note that 0=0+0i, therefore 0 is both a real number and a pure imaginary number. Do not confuse the complex numbers with the pure imaginary numbers. Every real number is a complex number and every pure imaginary number is a complex number also.


Is every irrational number a complex number?

Yes! Every complex number z is a number, z = x + iy with x and y belonging to the field of real numbers. The real number x is called the real part and the real number y that accompanies i and called the imaginary part. The set of real numbers is formed by the meeting of the sets of rational numbers with all the irrational, thus taking only the complex numbers with zero imaginary part we have the set of real numbers, so then we have that for any irrational r is r real and complex number z = r + i0 = r and we r so complex number. So every irrational number is complex.


What is the difference between a whole number and a real number?

An example of a whole number would be this >>> 2 1/3 Except a real number would be any rational Or irrational number :)


What is a non real complex number?

Complex numbers are written in the form (a+bi), where i is the square root of -1.A real number does not have any reference to i in it.A non real complex number is going to be a complex number with a non-zero value for b, so any number that requires you to write the number i is going to be an answer to your question.2+2i for example. (2 plus 2 times i)

Related questions

What is the difference between a set of real numbers and a set of complex numbers?

The set of real numbers is a subset of the set of complex numbers. For the set of complex numbers, given in the form (a + bi), where a and b can be any real number, the number is only a real number, if b = 0.


What is the difference between a complex number and real number system?

Graphically the difference is quite clear: the real numbers can be put on a line, the so-called number-line; while complex numbers are represented as points on a plane. A complex number is made up of two parts, like a vector in two dimensions.


What is the difference between imaginary numbers and complex numbers?

No difference. The set of complex numbers includes the set of imaginary numbers.


Is the difference between two real numbers a real number?

Yes, I can't think of any way that a real number minus another real number would be complex or purely imaginary. My answer is yes.


The difference of two complex numbers is always a complex number?

A complex number is any number that is in the real/imaginary plane; this includes pure reals and pure imaginaries. The difference between two numbers inside this plane is never outside this plane; therefore, yes, the difference between two complex numbers is always a complex number. However, the difference between two numbers that are neither purely imaginary nor purely real is not always necessarily a number that is neither purely imaginary nor purely real. Take x+yi and z+yi for instance, where x, y, and z are all real: (x+yi)-(z+yi)=x+yi-z-yi=x-z. Since x and z are both real numbers, x-z is a real number.


What is the graphical relationship between a conjugate number and a complex number?

Graphically, the conjugate of a complex number is its reflection on the real axis.


How is solving a quadratic equation with complex numbers like solving a quadratic equation with real numbers?

Because of how close the two are. The only difference between the two is that a complex number is any whole number along side of a fraction, while a real number is any positive number.


What is the relationship between a complex number and its conjugate?

When a complex number is multiplied by its conjugate, the product is a real number and the imaginary number disappears.


Is one a real complex pure imaginary or nonreal complex number?

One is a complex number and a real number.


What do you get if you raise a real number to a complex number?

You get a complex number unless the real number happens to be 0 or 1.


Is the difference of a complex number and its conjugate a real imaginary or pure imaginary number?

It is a pure imaginary number.Since (a+bi)-(a-bi) = 2bi, it is a pure imaginary number (it has no real component).


Is -4 a nonreal complex number?

No. Negative four is a real number. All real numbers are also complex numbers, so it is a complex number (but it's real, not nonreal)