The distributive property states that a(b + c) = ab + ac Multiplying the sum of two numbers is the same as multiplying the numbers separately and adding those totals together. 5(2 + 3) = 40 (5 x 2) + (5 x 3) = 40
Two monomials would be a Binomial or Polynomial.
Oh, what a happy little math problem we have here! To multiply 4 by 38 using the distributive property, you can break it down like this: 4 x (30 + 8). First, multiply 4 by 30 to get 120, then multiply 4 by 8 to get 32. Finally, add those results together to get 152. Happy multiplying!
Multiplying by multi-digit numbers is similar to multiplying by two-digit numbers in that both processes involve breaking down the numbers into place values and multiplying each digit by each digit in the other number. The key similarity lies in the application of the distributive property, where each digit in one number is multiplied by each digit in the other number, and then the products are added together to get the final result. This process is consistent whether you are multiplying by a two-digit number or a multi-digit number.
Oh honey, finding the distributive property is as easy as stealing candy from a baby. Just take 127 and multiply it by 30, then multiply it by 2. Add those two products together and voilà, you've got the distributive property of 127 and 32. Math is a piece of cake, darling.
The distributive property states that multiplying a sum by a number gives the same result as multiplying each addend by the number and then adding the products together.
Multiplying a sum by a number gives the same result as multiplying each addend by the number and then adding the products together.
What Is Distributive Property? According to this property, multiplying the sum of two or more addends by a number will give the same result as multiplying each addend individually by the number and then adding the products together.
The distributive property states that multiplying a sum by a number is the same as multiplying each addend by that number and then adding the products together. In other words, a*(b+c) = ab + ac. This property is fundamental in algebraic manipulations and simplifications.
The distributive property states that a(b + c) = ab + ac Multiplying the sum of two numbers is the same as multiplying the numbers separately and adding those totals together. 5(2 + 3) = 40 (5 x 2) + (5 x 3) = 40
Two monomials would be a Binomial or Polynomial.
The distributive property states that when multiplying a number by the sum of two other numbers, the result will be the same as if each of the two numbers were multiplied by the first number separately and then added together. In algebra, it is commonly written as a(b + c) = ab + ac. This property is essential for simplifying expressions and solving equations.
The distributive property of multiplication over addition is that you can multiply the addends of a number times a number and add those together. 25 time 10=5*10+20*10
Oh, what a happy little math problem we have here! To multiply 4 by 38 using the distributive property, you can break it down like this: 4 x (30 + 8). First, multiply 4 by 30 to get 120, then multiply 4 by 8 to get 32. Finally, add those results together to get 152. Happy multiplying!
According to this property, multiplying the sum of two or more addends by a number will give the same result as multiplying each addend individually by the number and then adding the products together.
Multiplying by multi-digit numbers is similar to multiplying by two-digit numbers in that both processes involve breaking down the numbers into place values and multiplying each digit by each digit in the other number. The key similarity lies in the application of the distributive property, where each digit in one number is multiplied by each digit in the other number, and then the products are added together to get the final result. This process is consistent whether you are multiplying by a two-digit number or a multi-digit number.
Oh honey, finding the distributive property is as easy as stealing candy from a baby. Just take 127 and multiply it by 30, then multiply it by 2. Add those two products together and voilà, you've got the distributive property of 127 and 32. Math is a piece of cake, darling.