Find Area of Trapezoid ABCD | $(\sqrt 3+1):(3-\sqrt 3)$

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In summary, the area of the trapezoid ABCD is 2. This is determined by using the given information that AD is parallel to BC, points E and F are midpoints of AB and CD respectively, and the area of triangle ABD is $\sqrt 3$. By setting variables for the lengths of AD and BC, the areas of the yellow and cyan regions can be calculated in terms of these variables. From there, the ratio of the two areas can be set equal to the given ratio, leading to a system of equations. Solving for the variables gives the length of AD and BC, which can then be used to find the area of the trapezoid. The final solution is that
  • #1
Albert1
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A trapezoid ABCD ,AD // BC ,points E and F are midpoints of AB and CD respectively
(1)area AEFD :area EBCF =($\sqrt 3+1) : (3-\sqrt 3)$
(2) area of $\triangle ABD=\sqrt 3$
please find the area of ABCD
View attachment 1123
 

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  • #2
Re: another trapezoid

Albert said:
(1)area AEFD :area EBCF =$\sqrt 3+1:3-\sqrt 3$
What does that mean? ~2.732 / ~1.268 ? Can't be...
 
  • #3
Re: another trapezoid

Wilmer said:
What does that mean? ~2.732 / ~1.268 ? Can't be...
that means the ratio of two areas
 
  • #4
Re: another trapezoid

Albert said:
that means the ratio of two areas

But area AEFD is clearly lesser than area EBCF ;
but your ratio makes it greater...?
 
  • #5
Re: another trapezoid

Wilmer said:
But area AEFD is clearly lesser than area EBCF ;
but your ratio makes it greater...?
the diagram is not scaled
 
  • #6
Re: another trapezoid

I give up!

Hope someone else understands...
 
  • #7
Re: another trapezoid

the diagram has been changed now
 
  • #8
Re: another trapezoid

Albert said:
A trapezoid ABCD ,AD // BC ,points E and F are midpoints of AB and CD respectively
(1)area AEFD :area EBCF =($\sqrt 3+1) : (3-\sqrt 3)$
(2) area of $\triangle ABD=\sqrt 3$
please find the area of ABCD
View attachment 1123
If $AD = x$, $BC = y$ and the perpendicular distance between $AD$ and $BC$ is $h$, then
area of the yellow region $AEFD$ is $\frac12h\bigl(\frac34x + \frac14y\bigr)$,
area of the cyan region $EBCF$ is $\frac12h\bigl(\frac14x + \frac34y\bigr)$,
area of the triangle $ABD$ is $\frac12xh$.​
Then (2) tells us that $\frac12xh =\sqrt 3$, and so $xh = 2\sqrt3$. From (1) we get $$\frac{\frac12h\bigl(\frac34x + \frac14y\bigr)}{\frac12h\bigl(\frac14x + \frac34y\bigr)} = \frac{\sqrt 3+1}{3-\sqrt 3},$$ from which $(3-\sqrt3)(3x+y) = (1+\sqrt3)(x+3y)$. Thus $(8-4\sqrt3)x = 4\sqrt3y$, from which $y = (2-\sqrt3)x/\sqrt3$, and $x+y = 2x/\sqrt3.$

The area of $ABCD$ is $\frac12(x+y)h = \frac12\,\frac2{\sqrt3}xh = \frac1{\sqrt3}(2\sqrt3) = 2.$
 
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  • #9
Re: another trapezoid

Just woke up to your new diagram, Albert; quite a difference;
about same as first showing a circle, then replacing it by an ellipse
:rolleyes:
Opalg said:
Thus $(8-4\sqrt3)x = 4\sqrt3y$, from which $y = (2-\sqrt3)x/\sqrt3$, and $x+y = 2x/\sqrt3.$
VERY clever, Opal; what a "nice" way to get "x + y" (Clapping)

Noticed that the "work" can be reduced quite a bit by letting y = 1.

Quickly leads to:
(3x + 1) / (x + 3) = (1 + SQRT(3)) / (3 - SQRT(3)),
then x = SQRT(3) / (2 - SQRT(3))
 
  • #10

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1. What is a trapezoid?

A trapezoid is a quadrilateral with one pair of parallel sides. It is also known as a trapezium in some countries.

2. How do you find the area of a trapezoid?

To find the area of a trapezoid, you can use the formula A = (1/2)(b1 + b2)h, where b1 and b2 are the lengths of the two parallel sides and h is the height of the trapezoid.

3. What is the given ratio in "Find Area of Trapezoid ABCD | $(\sqrt 3+1):(3-\sqrt 3)$"?

The given ratio is the ratio of the lengths of the two parallel sides of the trapezoid, with the first number being the length of side AB and the second number being the length of side CD.

4. How do you simplify the given ratio?

To simplify the given ratio, you can rationalize the denominator by multiplying both the numerator and denominator by the conjugate of the denominator, which in this case is $(3+\sqrt 3)$. This will result in a simplified ratio of $(2\sqrt 3 + 2):(6-3)$, or simply $\sqrt 3 + 1:3$.

5. Can the given ratio be used to find the area of the trapezoid?

Yes, the given ratio can be used to find the area of the trapezoid. By substituting the simplified ratio into the formula A = (1/2)(b1 + b2)h, you can find the area of the trapezoid. However, you will also need to know the height of the trapezoid in order to calculate the area.

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