Answer:
81x^4/16  (81x to the fourth over 16)
Step-by-step explanation:
First you apply the exponent rule: (a/b)^c  ->  a^c/b^c
So it looks like this: 3x^2/4^2
Then you apply the exponent to the whole thing, and 3^4 is 81, x^4 stays like that, and 2^4 is 16
You can't simplify any more after that so that's your answer
Hope this helps! 
 
        
             
        
        
        
Answer:
15% off $30
Step-by-step explanation:
 
        
                    
             
        
        
        
"Isolate the constant by adding 7 to both sides of the equation." 
This step separates the non-squareable 7 and the squareable 

 .
"Add 9 to both sides of 

 to form a perfect square trinomial while keeping the equation balanced." 
After separating the non-squareable, add the number which makes the first or left side a perfect square trinomial. The formula to find the number is: 

 . 
When we plug the values: 
 
 Simplify: 

"Write the trinomial 

 as 

 squared." 
When you factor 

 , you will get 

 .
"Use the square root property of equality to get 

 ." 
The 16 is coming from the part when we add 9. We needed 9 on the left side for a perfect square, but to protect the balance of the equality, we need to add 9 to the right side too. When we add 7 and 9, we got 16, and that is where it came from.
"Isolate the variable x to get solutions of -1 and 7." 
To isolate x we branched the plus-minus sign: 
 
 
        
        
        
Answer:
k+7
k-7
or k+7/k-7
Step-by-step explanation:
 
        
                    
             
        
        
        
Answer:
242
Step-by-step explanation:
22=a/11
22*11= a
242 = a
a=242