well, we need to analyze, of course
That is correct. It is easier to simplify the fraction before multiplying all the factors in the numerator and the denominator.That is correct. It is easier to simplify the fraction before multiplying all the factors in the numerator and the denominator.That is correct. It is easier to simplify the fraction before multiplying all the factors in the numerator and the denominator.That is correct. It is easier to simplify the fraction before multiplying all the factors in the numerator and the denominator.
65
Simplify, possibly!
If you're multiplying, it's a to the sixteenth. If you're dividing, it's a to the second.
The question cannot be answered because the ratio of the polynomials cannot simplify to "3x-12x plus 1" since that is not a simplified form: it simplifies to -9x + 1.
That is correct. It is easier to simplify the fraction before multiplying all the factors in the numerator and the denominator.That is correct. It is easier to simplify the fraction before multiplying all the factors in the numerator and the denominator.That is correct. It is easier to simplify the fraction before multiplying all the factors in the numerator and the denominator.That is correct. It is easier to simplify the fraction before multiplying all the factors in the numerator and the denominator.
x to the power of 5 +x to the power of 4 -x-1
to simplify the equation
65
binomials
Foil
multiplying
Simplify, possibly!
After multiplying or dividing two rational expressions it is sometimes possible to simplify the resulting expression.
If you're multiplying, it's a to the sixteenth. If you're dividing, it's a to the second.
If you're multiplying, it's a to the sixteenth. If you're dividing, it's a to the second.
The question cannot be answered because the ratio of the polynomials cannot simplify to "3x-12x plus 1" since that is not a simplified form: it simplifies to -9x + 1.