Simplify The Subtract Expression
Key Concepts
- Subtract expressions by using properties
- Subtract expressions with rational coefficients
- Subtract more complex expressions
4.7 Subtract expressions
- For subtracting two or more algebraic expressions, it requires categorizing the terms in an algebraic expression into two types – like and unlike terms.
- Then, taking up the like terms and then subtracting them accordingly.
- The other way is to follow the horizontal method that requires writing the expressions to be subtracted below the expression from which it is to be subtracted.
- Like terms are placed below each other.
- The sign of each term that is to be subtracted is reversed, and then the resulting expression is added normally.
Example:
4.7.1 Subtract expressions by using properties
Example 1:
Lenin wants to put a tiled border around their swimming pool; what expression represents the total area of the border?
Solution:
Write an expression for the area of the pool only.
Then write an expression for the area of the pool plus the tiled border.
Area of the pool l width × length
16 × (2x +16) ft2
Area of the pool and tiled border:
20 × (2x +20) ft2
Use properties of operations to subtract the expression
(Area of the pool + tiles) – (area of the pool)
=20 (2x +20) – 16(2x +16)
= 40x – 32x +400 – 256
=8x +144
The area of the tiled border is 8x +144 ft2.
Example 2:
Simplify the expression using the distributive property.
4(x – 5) – (x + 3)
Solution:
4(x – 5) – (x + 3)
4.7.2 Subtract expressions with rational coefficients
Coefficient: The number multiplying by a variable.
Rational: Can be represented by a fraction – both positive and negative numbers included.
Example1:
Subtract (0.95x- 0.04) – (0.99x – 0.13)
Solution:
(0.95x- 0.04) – (0.99x – 0.13)
= 0.95x- 0.04 + (-1) (0.99x – 0.13)
4.7.3 Subtract more complex expressions
Complex expressions:
complex expressions are mathematical expressions that include complex numbers, which contain both a real part and an imaginary part.
Complex numbers look like binomials in that they have two terms.
For example, 3 + 4i is a complex number as well as a complex expression.
Example 1:
Subtract (16+3.4m+8k) – (6.6m – 6 +3k)
Solution:
(16+3.4m+8k) – (6.6m – 6 +3k)
(16+3.4m+8k) + (-6.6m + 6 -3k)
=16+3.4m+8k -6.6m + 6 -3k
=8k – 3k +3.4m – 6.6m +16+6
=5k -3.2m + 22
Exercise:
- Subtract.
(14x) – (–15 + 7x)
(4y – 6) – (–y – 3) - Subtract and simplify.
1/4 m – 2/8 m + 1/2 - Rewrite the expression 16m –(4+12m) without parentheses.
- Write an equivalent expression to 6k-(3+2k) without parentheses, then simplify.
- A rectangular garden has a walkway around it. Find the area of the walkway
6. Find the difference (6x – 3 ) – (–2x +4 )
7. An expression is shown (0.34 – 0.2) – (0.4n – 0. 15)
Create an equivalent expression without parentheses.
8. Subtract (16+3.5t+4s) – (2.4m- 5 +2s).
9. Subtract (0.75a – 0.03) – (0.78a-0.12).
10. A soap company has two manufacturing plants with a daily production level of 7x + 7 and 4x – 2 items, respectively, where x represents a minimum quantity. The first plant produces how many more items daily than the second plant?
Concept Map
What have we learned:
- Understand how to subtract the expressions.
- Understand how to subtract expressions by using properties.
- Subtract expressions with rational coefficients.
- Subtract more complex expressions
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