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
Cancelling out common factors means you are working with smaller numbers. It is usually, but not always, beneficial.
When you multiply fractions, you do not need to reduce them before multiplying. Instead, you multiply the numerators together and the denominators together to get the result. However, you can simplify the result afterward if possible. Reducing before multiplying can make the calculation easier, but it's not necessary.
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.
to simplify the equation
65
Cancelling out common factors means you are working with smaller numbers. It is usually, but not always, beneficial.
When you multiply fractions, you do not need to reduce them before multiplying. Instead, you multiply the numerators together and the denominators together to get the result. However, you can simplify the result afterward if possible. Reducing before multiplying can make the calculation easier, but it's not necessary.
This has the effect of producing a denominator in the answer that has each of the original denominators as factors. You don't have to worry about simplifying the fractions before multiplying. Of course, you may have to simplify after multiplying. There's no way out.
The process of multiplying a number outside a set of parentheses to everything inside the parentheses is called distributing or the distributive property. This property is used to simplify algebraic expressions by multiplying the external number to each term inside the parentheses.
Foil
multiplying
binomials
well, we need to analyze, of course
Simplify, possibly!