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4 votes
I really need help. The answer apparently is not k

I really need help. The answer apparently is not k-example-1
User Carl Edwards
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2 Answers

21 votes
21 votes

Answer:

The answer is K though? Let me elaborate

Step-by-step explanation:

We know that the area of a circle with radius k is A = πk^2.

Let's draw a square inside the circle, such that the corners of the square touch the circle. We can do this by drawing a line from the center of the circle to one of its points, and then drawing a perpendicular line to split that line in half. This creates a right triangle with sides k, k, and hypotenuse √2k.

Now we can use the Pythagorean theorem to find the length of one side of the square:

a^2 + b^2 = c^2

k^2 + k^2 = (√2k)^2

2k^2 = 2k^2

Therefore, the length of one side of the square is a = b = k.

The diagonal of the square can be found using the Pythagorean theorem:

d^2 = a^2 + b^2

d^2 = k^2 + k^2

d^2 = 2k^2

d = √2k

The area of the square is:

A = a^2

A = k^2

So we have a square with a diagonal of √2k and an area of k^2. To show that this square has an area that is half the area of the circle, we can find the area of the circle and divide by 2:

A(circle) = πk^2

A(square) = k^2

A(circle)/A(square) = (πk^2)/(k^2) = π

So the area of the square is π times smaller than the area of the circle. Therefore, there must be a square that has a diagonal with a length between k and 2k and an area that is half the area of the circle.

User Saqueib
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3.6k points
25 votes
25 votes
It would be the area for a circle is k^2(3.14) and square is k^2
User Elvin Jafarov
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2.6k points