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What else can I help you with?
Explain brackets in order of operation?
Brackets are basically the same as parentheses. If they are inside of parentheses, then you simplify that term before anything else. If they are outside of parentheses, then you simplify the terms in the parentheses first and then the term within the brackets.
Remove the parentheses and simplify 11x - 7x - 5?
4x-5.
How can you use the distributive property to simplify?
To simplify using the distributive property, you distribute a number or variable outside a set of parentheses to each term inside the parentheses. For example, if you have the expression 3(x + 2), you would distribute the 3 to both x and 2 to get 3x + 6. This helps you combine like terms and simplify the expression further.
Simplify this expression 8(y plus z)?
Sure thing, honey. To simplify that expression, you just distribute the 8 to both terms inside the parentheses. So, you get 8y + 8z. That's all there is to it, darling.
How can you use parentheses to simplify calculations?
Parentheses can be used to group numbers and operations in a calculation, indicating the order in which to perform those operations. By prioritizing the calculations within parentheses first, you can simplify complex expressions, making them easier to manage. This can help prevent errors and clarify which parts of the calculation should be completed first, leading to more accurate results. For example, in the expression 2 + (3 × 4), calculating the multiplication first gives you 2 + 12 = 14, rather than performing addition first.
Explain brackets in order of operation?
Brackets are basically the same as parentheses. If they are inside of parentheses, then you simplify that term before anything else. If they are outside of parentheses, then you simplify the terms in the parentheses first and then the term within the brackets.
Remove the parentheses and simplify 11x - 7x - 5?
4x-5.
How can you use the distributive property to simplify?
To simplify using the distributive property, you distribute a number or variable outside a set of parentheses to each term inside the parentheses. For example, if you have the expression 3(x + 2), you would distribute the 3 to both x and 2 to get 3x + 6. This helps you combine like terms and simplify the expression further.
The process of multiplying a number outside a set of parentheses to everything inside the parentheses is called?
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.
Remove parentheses and simplify 7X-4X-9?
As there are no parentheses then the expression stated can be simplified as follows :- 7x - 4x - 9 = 3x - 9 If the parentheses were placed (7x - 4x) - 9 then the result would be the same. If the parentheses were placed 7x - (4x - 9) = 7x - 4x + 9 = 3x + 9.
What property allows you to move parentheses?
Figure it out dummy
What Property allows you to move the parentheses?
Figure it out dummy
M times 4m add 54 n add 72f times 62L?
To solve this expression, we need to follow the order of operations, which is commonly known as PEMDAS (Parentheses, Exponents, Multiplication and Division from left to right, and Addition and Subtraction from left to right). First, let's simplify the multiplication M×4m=4Mm Next, let's simplify the addition: 4Mm+54n+72f×62L Since there are no parentheses, we move on to the multiplication: 72f×62L=4464fL Finally, we can add all the terms together: 4Mm+54n+4464fL Therefore, the final expression is; 4Mm+54n+4464fL To solve this expression, we need to follow the order of operations, which is commonly known as PEMDAS (Parentheses, Exponents, Multiplication and Division from left to right, and Addition and Subtraction from left to right). First, let's simplify the multiplication M×4m=4Mm Next, let's simplify the addition: 4Mm+54n+72f×62L Since there are no parentheses, we move on to the multiplication: 72f×62L=4464fL Finally, we can add all the terms together: To solve this expression, we need to follow the order of operations, which is commonly known as PEMDAS (Parentheses, Exponents, Multiplication and Division from left to right, and Addition and Subtraction from left to First, let's simplify the Next, let's simplify the Since there are no parentheses, we move on to the Finally, we can add all the terms ( 4M \mathrm{~m} + 54 \mathrm{n} + 4464 \mathrm{fL} )To solve this expression, we need to follow ( 4M \mathrm{~m} + 54 \mathrm{n} + 4464 \mathrm{fL} )To solve this expression, we need to follow the order of operations, which is commonly known as PEMDAS (Parentheses, Exponents, Multiplication and Division from left to right, and Addition and Subtraction from left to right). First, let's simplify the multiplication: ( M \times 4 \mathrm{~m} = 4M \mathrm{~m} ) Next, let's simplify the addition: ( 4M \mathrm{~m} + 54 \mathrm{n} + 72 \mathrm{f} \times 62L ) Since there are no parentheses, we move on to the multiplication: ( 72 \mathrm{f} \times 62L = 4464 \mathrm{fL} ) Finally, we can add all the terms together: ( 4M \mathrm{~m} + 54 \mathrm{n} + 4464 \mathrm{fL} ) Therefore, the final expression is: ( 4M \mathrm{~m} + 54 To solve this expression, we need to follow the order of operations, which is commonly known as PEMDAS (Parentheses, Exponents, Multiplication and Division from left to right, and Addition ( 4M \mathrm{~m} + 54 \mathrm{n} Since there are no parentheses, ( 72 \mathrm{f} Finally, we ( 4M \mathrm{~m} + ( 4M \mathrm{~m} + To solve this expression, we need to follow the order of operations, which is commonly known as PEMDAS (Parentheses, Exponents, Multiplication and Division from left to right, and
Simplify this expression 8(y plus z)?
Sure thing, honey. To simplify that expression, you just distribute the 8 to both terms inside the parentheses. So, you get 8y + 8z. That's all there is to it, darling.
How do you simplify 2x plus 3 x 4?
Without parentheses, 3 x 4 = 12 2x + 12 factors to 2(x + 6)
Do you simplify while using the distributive property to write an expression?
When using the distributive property to write an expression, you do not simplify within the parentheses before applying the property. The distributive property involves multiplying the term outside the parentheses by each term inside the parentheses. Once you have distributed the term, you can then simplify the resulting expression by combining like terms. Simplifying before distributing would result in an incorrect application of the distributive property.
How can you use parentheses to simplify calculations?
Parentheses can be used to group numbers and operations in a calculation, indicating the order in which to perform those operations. By prioritizing the calculations within parentheses first, you can simplify complex expressions, making them easier to manage. This can help prevent errors and clarify which parts of the calculation should be completed first, leading to more accurate results. For example, in the expression 2 + (3 × 4), calculating the multiplication first gives you 2 + 12 = 14, rather than performing addition first.
