Area is equal to length times width. The perimeter (the amount of rope) has to equal twice the length added to twice the width so we're left with:
A = l * w
200 = 2l + 2w
solve for either l or w
l = 100 - w
plug into the area equation to get one equation with two variables
A = w(100 - w)
A = -w^2 + 100w
take the derivative
A' = -2w + 100
set the derivative equal to zero
0 = -2w + 100
2w = 100
w = 50
This is the width that maximizes the area
with a width of 50, the length must also be 50 to have a perimeter of 200
therefore, they can rope up to 50 * 50 = 2500 ft^2
Answer:
C) Addition property of equality and division property of equality
Step-by-step explanation:
To find the answer, let's first solve the equation for x...
3x-6=12
Add 6 to both sides (Addition property of equality)
3x=6
Divide both sides by 3 (Division property of equality)
x=2
We used both the addition property of equality and the division property of equality therefore the answer is C
I believe the answer to your question is 10/37.
The total of candies inside the bag was initially 38. Since a blue candy has already been picked and cannot be picked and cannot be replaced then the total number of candy remaining in the bag is 37. So the probability of choosing a red candy is now 10/37
Happy New Year from MrBillDoesMath!
Answer:
B
Discussion:
A. = 3.5 * (1/5) and 3.5 is NOT an integer
B. = 6 * (1/5) and 6 is an integer
C. = (1/4)* (1/5) and (1/4) is NOT an integer
D. = (1/5)*(1/5)* (1/5) = (1/25)(1/5) and )1/25) is NOT an integer
Thank you,
MrB
<h2>
Answer:</h2><h2>
2(x+17)</h2><h2>
Step-by-step explanation:</h2>
To be honest I am not sure
Good Luck Sorry if it is wrong.
