Answer:
1170450 yd^2
Step-by-step explanation:
The first thing is to calculate the necessary perimeter, which would be like this:
2 * a + b = 3060
if we solve for b, we are left with:
b = 3060-2 * a
Now for the area it would be:
A = a * b = a * (3060-2 * a
)
A = 3060 * a -2 * a ^ 2
To maximize the area, we calculate the derivative with respect to "a":
dA / da = d [3060 * a -2 * a ^ 2
]/gives
dA / day = 3060 - 4 * a
If we equal 0:
0 = 3060 - 4 * a
4 * a = 3060
a = 3060/4
a = 765 and d
Therefore b:
b = 3060 - 2 * a = 3060 - 1530 = 1530
A = a * b
A = 765 * 1530
A = 1170450 and d ^ 2
Answer:
1) C. (3, 5)
2) B. Counterclockwise turn 90 degrees about the origin
3) A. C' (0, -2)
Step-by-step explanation:
i got u bro
In order for something to be a function, it cannot have an x-value repeated. Therefore, (1,0) cannot be a possible ordered pair because the function already has a point at x=1 (1,2).
Answer:
800 calories
Step-by-step explanation
Jace wants his total to be: 1,900
He consumed: 1,500
He burned: 400
How much is left: ?
Your equation would look like: 1900=1500-400+x
First step is to add like terms so: 1500-400= 1100
Now you subtract the calories Jace has gained with the total he wants to achieve: 1900-1100= 800
The amount he needs to gain is: x=800
1,100 is not aa viable solution because he want to keep his calory intake at 1,900, and 1,100 is the total for the calories he already consumed and burned while at the gym.
Hope this made sense!
I believe the answer is A
