(x-12)2 using perfect square
It's much faster in most cases; however, factoring is not always possible.
(w - 1)2
Parallelograms (and their special cases), isosceles trapezium.
A hexahedron. In special cases it would be a cuboid and, in even more specific cases, a cube.
(x-12)2 using perfect square
As an example, the product of (a + b) (a - b) is equal to a squared - b squared."Special product" simply means that there are special cases, when multiplying polynomials, that are worth memorizing. For example, if you know the above, then you can easily start factoring any expression that contains the difference of two perfect squares - for example, x squared minus 1, a to the power 6 minus b to the power 4, or even - if you start using complex numbers - a squared + b squared = a squared - (-1) b squared.
It's much faster in most cases; however, factoring is not always possible.
In some simple cases, factoring allows you to find solutions to a quadratic equations easily.Factoring works best when the solutions are integers or simple rational numbers. Factoring is useless if the solutions are irrational or complex numbers. With rational numbers which are relatively complicated (large numerators and denominators) factoring may not offer much of an advantage.
Special Cases was created on 2003-02-24.
yes in some cases
There are two special cases that start trial in the United States Supreme Court. Cases involving foreign officials and cases in which a state is a party originate in the Supreme Court.
In general, no. But in special cases it can be.
Not really sure about that
The cases were originally loaded with higher pressure, higher velocity loads for the 38 Special revolvers. Not to be used in older revolvers chambered for the .38 Special cartridge.
yes
The ones that do.