Up to now you have seen 4 major sets of numbers:
There is a lot of subtle mathematics associated with them. Are there more rational numbers than integers? More reals than rationals? We can also try to solve equations. In physics we usually mean “find a real number that solves the equation”.
Example 1.1:
Find the zero of the function (polynomial) .
Solution:
There are equations we can’t solve in this way, e.g. the roots or zeroes of the polynomial , are not real, i.e.
The square root of is not defined within the real numbers. There is no real zero of (look at the curve ). We define new numbers (complex numbers) so that we can solve any equation of the kind of ( 1.2 ).
Complex numbers are defined as with real and real and .
The symbol is called ‘complex unit’ with the property
Question: What is
?
Using
, we can solve
In , is called real part and is called imaginary part of the complex number . Complex numbers are elements of a set called .
So far this may seem a bit artificial. However, we now can solve arbitrary quadratic equations, i.e., find solutions in :
Example 1.2:
Solve .
Solution:
In fact, within the complex numbers one can always find the root of a quadratic equation (and in fact all the roots of an arbitrary polynomial, i.e. solve equations like etc., although for this last example there is no general formula as in the quadratic case.)
Actually, complex numbers first arose in the 15th century in the solution of cubic equations of the form . The general solution of such equations are
and therefore inolve the complex unit , even when the resulting solutions are real!
If we look at a pair of two complex numbers
we can define all the standard algebraic manipulations.
Equality:
Addition:
Multiplication:
Zero:
Other:
The complex conjugate of a complex number is defined as .
From this definition, we find
(see next workshop for some exercises).
Division: we use a trick by calculating :
(Check this !). For ,
Other more complicated examples were dealt with in class and the workshop.