This looks like an odd problem.
Just start with a simple expression with 7 as a factor, and then multiply it out.
For example:
7(x+1)(x+2)
Here 7 could be the GCF.
Now multiply it out:
7(x^2+3x+2) =
7x^2+21x+14
So our factorable polynomial is 7x^2+21x+14
And its two equivalent forms are:
7(x^2+3x+2)and7(x+1)(x+2)
D. If next month is January, then this month is the last of the year. Hypothesis: Next month is January. Conclusion: This month is the last of the year.
Y>3/5x-1.5. Its only 'or equal to' if the line is bold and not dashed. The shaded area is above the line so it's greater than. Hope this helped!
Given:
The expressions are 
and 
.
To find:
The quotient of and expressed in scientific notation.
Solution:
Quotient of and is:
In the scientific notation, the first number is between 1 to 10. So, 0.32 can be written as 
.
Therefore, the value of the quotient is 
.
Answer:
6 - pack of scented candles for $40.5?
Step-by-step explanation:
$30 ÷ 4 = $7.5 for one
$40.5 ÷ 6 = $6.75 for one
therefore 6 - pack of scented candles for $40.5 is more cheap.
