Answer:
e. Repeated applications of L'Hopital Rule result in the original limit or the limit of the reciprocal of the function.
Step-by-step explanation:
= ∞/√(∞² + 6)= ∞/∞
Using L'Hopital's Rule,
= = √(∞² + 6)/ ∞ = ∞/∞
Applying L'Hopital's rule again, we have
∞/√(∞² + 6)= ∞/∞
Applying L'Hopital's rule again, we have
= = √(∞² + 6)/ ∞ = ∞/∞
Applying L'Hopital's rule again, we have
∞/√(∞² + 6)= ∞/∞
So, we see that repeated applications of L'Hopital Rule result in the original limit or the limit of the reciprocal of the function.
So, e is the answer.
9+9 is 18 24-18 is 6 6 divided by 2 is 3 so the width is 3 centimeters
Hey there!
We know that perimeter is all the sides added up.
70= 2w+2L <== this is the basic equation
We know that the rectangles length is three times as long as it is wide.
So, you know that is is three times the length of the width. So, put 3 times w in as length and times that by two since there are two length sides, and keep width the same. 2w because there are two width sides. Then, solve.
70=2(3w)+2w
70= 6w+2w
70=8w
w=8.75
We can check this by plugging it in to our first equation and seeing if it works. First, we need to multiply 8.75 by 3 to get the value for length.
8.75*3= 26.25
2(26.25)+2(8.75)= 70 <=== it works!
So, the length is 26.25 cm and the width is 8.75 cm.
I hope this helps!
~kaikers
Answer:
The surface area of a cylinder can be found by breaking it down into three parts:
Step-by-step explanation:
The two circles that make up the ends of the cylinder.
The side of the cylinder, which when "unrolled" is a rectangle
Combining these parts we get the formula:
area = 2 π r 2 + 2 π r h
Answer:
The answer is -52.
Step-by-step explanation:
-4(13) = -52