x(x4+x3+x2+x+1)
The expression is 42/23
To factor out the expression: x2y-y3 First factor out one "y": y(x2-y2) The expression x2-y2 is a difference of squares, which factors as well: (y)(x-y)(x+y) This is the simplest factoring of the original expression.
x³ - x² + x - 3 (x² + 1)(x - 1) - 2
39x2y326xy4The gcf is 13xy3 .
You can only get a specific number for an expression if you assign numbers to the variables. As an expression, the existing expression cannot be simplified.
the answer is (3x-2)(9x squared+6x+4)
A cubed
(a+b)(a squared-ab+b squared)
The expression is 42/23
Use a^3 + b^3 = (a + b)(a^2 - ab + b^2), where a^2 is a squared, a^3 is a cubed. Note that 216 = 6^3.
sin cubed + cos cubed (sin + cos)( sin squared - sin.cos + cos squared) (sin + cos)(1 + sin.cos)
To factor out the expression: x2y-y3 First factor out one "y": y(x2-y2) The expression x2-y2 is a difference of squares, which factors as well: (y)(x-y)(x+y) This is the simplest factoring of the original expression.
5x^2(4x - 5)(5x + 11)
x³ - x² + x - 3 (x² + 1)(x - 1) - 2
39x2y326xy4The gcf is 13xy3 .
You can only get a specific number for an expression if you assign numbers to the variables. As an expression, the existing expression cannot be simplified.
You can only get a specific number for an expression if you assign numbers to the variables. As an expression, the existing expression cannot be simplified.