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Down to the Roots
Order of Operations
Name That Property
Figure it Out
100

Write the product as a simplified power

(-8)4(-8)8

(-8)12

100

Find the Square Root. State NR if no real root exists...

16

4

100

What is GEMDAS, what does each section include, and how do we apply it?

GEMDAS is the Order we do Operations on mathematical equations, first to last, then from left to right.

G- Grouping Symbols are () [] || fraction bars, radical signs

E- Exponents

MD- Multiplication & Division (whichever is first left to right)

AS- Addition & Subtraction (whichever is first left to right)

100

In Addition this Property looks like this...

a + b = b + a

In Multiplication this Property looks like this...

ab = ba

Commutative 

100

Is a set Closed or Not Closed if positive integers are under multiplication?

Closed

A positive integer times a positive integer always produces a positive integer (In the set)

Ex: 5 x 5 = 25

200

Simplify the Expression

77/74

73

200

Write & Solve the Square Root. State NR if no real root exists...

Square Root of 144

Write \/‾‾144 

Solve 12

200

Name the order you should complete Operations and give your solution in this simple equation...

2 x 42 x (1 + 3)

Addition (1 + 3) = 4

Exponents 4= 16

Multiplication & Division left to right 2 x 16 x 4

Solution 128


200

In Addition this Property looks like this...

(a + b) + c = a + (b + c)

In Multiplication this Property looks like this...

(ab)c = a(bc)

Associative 

200

Is a set Closed or Not Closed when negative integers are under multiplication?

Not Closed 

A negative number x A negative number produces a positive integer (Not in the Negative set)

Ex: -5(-5) = 25

300
Express as a simplified power

84 * 86 / 85

85

300

Write & Solve the Root Equation. State NR if no real root exists...

Cube Root of -125

Write  3\/-1̅2̅5̅ 

= -5

Remember this rule: Cube roots are odd so Negatives Allowed

300

Evaluate the Expression

|4 - 22| + (62 - 6)

30

300

In Addition this Property looks like this...

a + 0 = 0 + a = 0

In Multiplication this Property looks like this...

a x 1 = 1 x a = a

Identity 

300

Name this Property under Addition

(10x + 5) + 7x = 7x + (10x + 5)

Commutative Property

Remember the property Commutes... You can move it!

400

Evaluate the Equation

1830

1

Remember this: Any number to the power of 0 is divided by itself... meaning it is always 1

400

Evaluate this root expression, state if there is no real root.

\/‾‾-49

No Real Root

Remember This Rule: 

Square Roots of negative numbers are ALWAYS NOT REAL. If there is a negative symbol outside this condition doesn't change -\/‾‾-49.... \/‾‾-144... -\/‾‾-25... still NOT REAL, NEVER REAL

400

Evaluate the Expression

(3x2)3

27x6

400

These Properties are unique...

In Addition this Property looks like this...

a + (-a) = -a + a = 0

In Multiplication this Property looks like this...

a s 0 = 0 x a = 0

Additive Inverse Property

&

Zero Property of Multiplication

400

Find the consecutive integers \/‾‾47 lies between

Answer: 6 and 7

Step 1 Identify perfect squares around 47:

36 < 47 < 49

Step 2 take the square roots to find the integers:

\/‾‾36 = 6  & \/‾‾49 = 7

Step 3 Conclude

\/‾‾47 falls between 6 and 7

500

Evaluate the Exponential Expression

(5 / h2)3

53/h2(3) = 125/h6

500

Write & Evaluate this root expression, state if there is no real root.

Plus minus the square root of 36

± \/‾‾36 = ±6

500

Evaluate the Expression...

(3-1x4y-5)5

--> 3-1(5)x4(5)y-5(5)  --> 3-5x20y-25

= x20 / 35 y25

500

I'm a property that works with addition, subtraction, and multiplication but not division..

example: for any integers a and b, ab is an integer...

Closure of Integers

500

Is this Expression Positive or Negative?

|-4|3(-29)-4 / (21 - 25)2

Determine if the elements are positive or negative and make your deduction:

(positive)(positive) / (positive)

Rule to Remember

If the number of negative elements is odd --> the final answer is negative

If the number of negatives is even --> the final answer is positive