Can we compute the area of a quadrilateral with one right angle when we only know the lengths of any three sides?Maximize the Area of a Quadrilateral given Three SidesA simple(?) Analytical Geometry Question (Ellipse)The perimeter of the rectangle is $20$, diagonal is $8$ and side is $x$. Show that $x^2-10x+18=0$Solving right triangle given the area and one angleCan one deduce whether a given quantity is possible as the area of a triangle when supplied with the length of two of its sides?Prove that the midpoints of the sides of a quadrilateral lie on a circle if and only if the quadrilateral is orthodiagonal.Given three points, how can I tell if the angle is acute without using trigonometric functions?Area of a concave quadrilateralUnknown internal angles of a quadrilateral where its area and side lengths are knownSimilar quadrilateral to a given one with vertices of the same color

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Can we compute the area of a quadrilateral with one right angle when we only know the lengths of any three sides?


Maximize the Area of a Quadrilateral given Three SidesA simple(?) Analytical Geometry Question (Ellipse)The perimeter of the rectangle is $20$, diagonal is $8$ and side is $x$. Show that $x^2-10x+18=0$Solving right triangle given the area and one angleCan one deduce whether a given quantity is possible as the area of a triangle when supplied with the length of two of its sides?Prove that the midpoints of the sides of a quadrilateral lie on a circle if and only if the quadrilateral is orthodiagonal.Given three points, how can I tell if the angle is acute without using trigonometric functions?Area of a concave quadrilateralUnknown internal angles of a quadrilateral where its area and side lengths are knownSimilar quadrilateral to a given one with vertices of the same color













21












$begingroup$


I took an IQ test for fun recently, but I take issue with the answer to one of the questions. Here's the question:



enter image description here



My issue is that the explanation assumes angle DC is a right angle. Given that assumption, I can see the quadrilateral is indeed a rectangle and a right triangle and can follow their explanation. However, (from what I remember my high school geometry teacher telling me) even though an angle looks like a right angle, it shouldn't be assumed unless it is explicitly stated or you can prove it. To explain what I mean, if DC isn't a right angle and we exacerbated that difference, it would look like the following:



enter image description here



Thus, even being given A, B, C and D it seems like the area could not be calculated.



So my question is twofold:



  1. Is my criticism valid or am I just being too proud because I got a question wrong?

  2. Given my interpretation, DC is not a right angle, can this problem be solved?









share|cite|improve this question









New contributor




Jack O. is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.







$endgroup$







  • 1




    $begingroup$
    You know it is a right angle because it has a large "90" on it. Now we can argue they never said why it has a "90" on it and as I am a nitpick I would agree with you... but... I think you and I would lose in any court.
    $endgroup$
    – fleablood
    Apr 3 at 2:45






  • 14




    $begingroup$
    Not that angle, the one below it.
    $endgroup$
    – Robert Israel
    Apr 3 at 2:46






  • 3




    $begingroup$
    " even though an angle looks like an angle, it shouldn't be assumed" but it doesn't even look like a right angle.
    $endgroup$
    – fleablood
    Apr 3 at 2:56






  • 7




    $begingroup$
    Where did you find that test? Online IQ tests are generally untrustworthy even before we get to this quadrilateral problem. Many don't even bother ending in an IQ estimate.
    $endgroup$
    – J.G.
    Apr 3 at 19:09















21












$begingroup$


I took an IQ test for fun recently, but I take issue with the answer to one of the questions. Here's the question:



enter image description here



My issue is that the explanation assumes angle DC is a right angle. Given that assumption, I can see the quadrilateral is indeed a rectangle and a right triangle and can follow their explanation. However, (from what I remember my high school geometry teacher telling me) even though an angle looks like a right angle, it shouldn't be assumed unless it is explicitly stated or you can prove it. To explain what I mean, if DC isn't a right angle and we exacerbated that difference, it would look like the following:



enter image description here



Thus, even being given A, B, C and D it seems like the area could not be calculated.



So my question is twofold:



  1. Is my criticism valid or am I just being too proud because I got a question wrong?

  2. Given my interpretation, DC is not a right angle, can this problem be solved?









share|cite|improve this question









New contributor




Jack O. is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.







$endgroup$







  • 1




    $begingroup$
    You know it is a right angle because it has a large "90" on it. Now we can argue they never said why it has a "90" on it and as I am a nitpick I would agree with you... but... I think you and I would lose in any court.
    $endgroup$
    – fleablood
    Apr 3 at 2:45






  • 14




    $begingroup$
    Not that angle, the one below it.
    $endgroup$
    – Robert Israel
    Apr 3 at 2:46






  • 3




    $begingroup$
    " even though an angle looks like an angle, it shouldn't be assumed" but it doesn't even look like a right angle.
    $endgroup$
    – fleablood
    Apr 3 at 2:56






  • 7




    $begingroup$
    Where did you find that test? Online IQ tests are generally untrustworthy even before we get to this quadrilateral problem. Many don't even bother ending in an IQ estimate.
    $endgroup$
    – J.G.
    Apr 3 at 19:09













21












21








21


1



$begingroup$


I took an IQ test for fun recently, but I take issue with the answer to one of the questions. Here's the question:



enter image description here



My issue is that the explanation assumes angle DC is a right angle. Given that assumption, I can see the quadrilateral is indeed a rectangle and a right triangle and can follow their explanation. However, (from what I remember my high school geometry teacher telling me) even though an angle looks like a right angle, it shouldn't be assumed unless it is explicitly stated or you can prove it. To explain what I mean, if DC isn't a right angle and we exacerbated that difference, it would look like the following:



enter image description here



Thus, even being given A, B, C and D it seems like the area could not be calculated.



So my question is twofold:



  1. Is my criticism valid or am I just being too proud because I got a question wrong?

  2. Given my interpretation, DC is not a right angle, can this problem be solved?









share|cite|improve this question









New contributor




Jack O. is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.







$endgroup$




I took an IQ test for fun recently, but I take issue with the answer to one of the questions. Here's the question:



enter image description here



My issue is that the explanation assumes angle DC is a right angle. Given that assumption, I can see the quadrilateral is indeed a rectangle and a right triangle and can follow their explanation. However, (from what I remember my high school geometry teacher telling me) even though an angle looks like a right angle, it shouldn't be assumed unless it is explicitly stated or you can prove it. To explain what I mean, if DC isn't a right angle and we exacerbated that difference, it would look like the following:



enter image description here



Thus, even being given A, B, C and D it seems like the area could not be calculated.



So my question is twofold:



  1. Is my criticism valid or am I just being too proud because I got a question wrong?

  2. Given my interpretation, DC is not a right angle, can this problem be solved?






geometry






share|cite|improve this question









New contributor




Jack O. is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.











share|cite|improve this question









New contributor




Jack O. is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.









share|cite|improve this question




share|cite|improve this question








edited Apr 3 at 9:09









Discrete lizard

14010




14010






New contributor




Jack O. is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.









asked Apr 3 at 2:41









Jack O.Jack O.

1065




1065




New contributor




Jack O. is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.





New contributor





Jack O. is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.






Jack O. is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.







  • 1




    $begingroup$
    You know it is a right angle because it has a large "90" on it. Now we can argue they never said why it has a "90" on it and as I am a nitpick I would agree with you... but... I think you and I would lose in any court.
    $endgroup$
    – fleablood
    Apr 3 at 2:45






  • 14




    $begingroup$
    Not that angle, the one below it.
    $endgroup$
    – Robert Israel
    Apr 3 at 2:46






  • 3




    $begingroup$
    " even though an angle looks like an angle, it shouldn't be assumed" but it doesn't even look like a right angle.
    $endgroup$
    – fleablood
    Apr 3 at 2:56






  • 7




    $begingroup$
    Where did you find that test? Online IQ tests are generally untrustworthy even before we get to this quadrilateral problem. Many don't even bother ending in an IQ estimate.
    $endgroup$
    – J.G.
    Apr 3 at 19:09












  • 1




    $begingroup$
    You know it is a right angle because it has a large "90" on it. Now we can argue they never said why it has a "90" on it and as I am a nitpick I would agree with you... but... I think you and I would lose in any court.
    $endgroup$
    – fleablood
    Apr 3 at 2:45






  • 14




    $begingroup$
    Not that angle, the one below it.
    $endgroup$
    – Robert Israel
    Apr 3 at 2:46






  • 3




    $begingroup$
    " even though an angle looks like an angle, it shouldn't be assumed" but it doesn't even look like a right angle.
    $endgroup$
    – fleablood
    Apr 3 at 2:56






  • 7




    $begingroup$
    Where did you find that test? Online IQ tests are generally untrustworthy even before we get to this quadrilateral problem. Many don't even bother ending in an IQ estimate.
    $endgroup$
    – J.G.
    Apr 3 at 19:09







1




1




$begingroup$
You know it is a right angle because it has a large "90" on it. Now we can argue they never said why it has a "90" on it and as I am a nitpick I would agree with you... but... I think you and I would lose in any court.
$endgroup$
– fleablood
Apr 3 at 2:45




$begingroup$
You know it is a right angle because it has a large "90" on it. Now we can argue they never said why it has a "90" on it and as I am a nitpick I would agree with you... but... I think you and I would lose in any court.
$endgroup$
– fleablood
Apr 3 at 2:45




14




14




$begingroup$
Not that angle, the one below it.
$endgroup$
– Robert Israel
Apr 3 at 2:46




$begingroup$
Not that angle, the one below it.
$endgroup$
– Robert Israel
Apr 3 at 2:46




3




3




$begingroup$
" even though an angle looks like an angle, it shouldn't be assumed" but it doesn't even look like a right angle.
$endgroup$
– fleablood
Apr 3 at 2:56




$begingroup$
" even though an angle looks like an angle, it shouldn't be assumed" but it doesn't even look like a right angle.
$endgroup$
– fleablood
Apr 3 at 2:56




7




7




$begingroup$
Where did you find that test? Online IQ tests are generally untrustworthy even before we get to this quadrilateral problem. Many don't even bother ending in an IQ estimate.
$endgroup$
– J.G.
Apr 3 at 19:09




$begingroup$
Where did you find that test? Online IQ tests are generally untrustworthy even before we get to this quadrilateral problem. Many don't even bother ending in an IQ estimate.
$endgroup$
– J.G.
Apr 3 at 19:09










3 Answers
3






active

oldest

votes


















25












$begingroup$

You are right. The provided explanation is nonsensical. $DC$ cannot be assumed to be a right angle.



However, if you don't make that assumption, and take $BC$ as the only given right angle, the correct answer is "All four sides must be known."



The quadrilateral can be decomposed into two non-overlapping triangles. The first is a right angled triangle formed by sides $B$, $C$ and a hypotenuse, and its area is easy to determine. You can use Pythagoras' Theorem to find the hypotenuse of that right triangle formed by sides $B$ and $C$. That hypotenuse, together with sides $A$ and $D$ forms the other triangle. Its area can be computed using Heron's formula. Just sum the areas.



Note that I'm still making a tacit assumption that this is a convex quadrilateral. A concave quadrilateral is possible with the angle $AD$ being reflex, which is seemingly not representative of the diagram given, but is a possibility when one only has the information of a single right angle and four given sides. In the case of a concave quadrilateral, the area calculation that I detailed above would not be correct.






share|cite|improve this answer











$endgroup$








  • 1




    $begingroup$
    Perfect, thank you!
    $endgroup$
    – Jack O.
    Apr 3 at 3:21










  • $begingroup$
    You're welcome.
    $endgroup$
    – Deepak
    Apr 3 at 3:24






  • 2




    $begingroup$
    +1 for Heron's formula - I learned something new today
    $endgroup$
    – slebetman
    Apr 3 at 9:31






  • 11




    $begingroup$
    @Deepak No, that's not correct. I took some time to double check. For example, see this image representing two quadrilaterals, both satisfying the conditions in the problem, both with the same side lengths, but having different areas - one is strictly smaller than the other.
    $endgroup$
    – David Z
    Apr 3 at 10:02






  • 4




    $begingroup$
    @Deepak Yes, that was exactly my point, that you can have a concave and convex quadrilateral with the same side lengths. Given that the question is about not assuming things that aren't explicitly stated, I think it may be worth at least mentioning that assumption.
    $endgroup$
    – David Z
    Apr 3 at 10:41


















14












$begingroup$

You are correct that the given solution is wrong. Worse still, even if you know that the angles between BC and CD are both right-angles, the purported answer is still wrong! This is because if you're given the lengths of A,B,C, it still does not uniquely determine D because we are not told that the angle between AB is less than $90°$.



In general, it is not enough even if you have all four side lengths. For example, consider convex quadrilateral $PQRS$ such that $PQ = 6$ and $QR = 9$ and $RS = 7$ and $SP = 8$. It is possible that $P,R$ are slightly less than $15$ apart, making $PQRS$ a very skinny quadrilateral whose area can be made arbitrarily close to zero. Alternatively, moving $P,R$ to a distance of $10$ makes $PQRS$ rather square-like with area clearly more than $48$. Bretschneider's formula gives the area for an arbitrary quadrilateral, and you can see from it as well that fixing the side lengths is not enough to determine the area, since it also varies with the sum of two opposite angles.






share|cite|improve this answer











$endgroup$




















    9












    $begingroup$

    You are right: there is absolutely no indication that angle $DC$ is a right angle. If they wanted you to assume it was a right angle, they should have indicated that with another $90$. It really doesn't even look like a right angle (somebody had the bright idea of trying to render the picture in perspective, but we don't even know where the horizon is supposed to be).






    share|cite|improve this answer









    $endgroup$












    • $begingroup$
      That's what I thought. It should explicitly state if any angles are right. However my second question remains, given DC is ambiguous, is this question solvable? I don't think there would be enough information to solve in this case.
      $endgroup$
      – Jack O.
      Apr 3 at 2:52










    • $begingroup$
      @JackO. See my answer. The correct answer would be "All sides must be known".
      $endgroup$
      – Deepak
      Apr 3 at 3:11










    • $begingroup$
      If we know all four lengths and assume no angle is more than 180, then I think there is only one quadrilateral so the area will be unique. I think. But you need all four. If you only three the fourth can be many lengths if the third one "swings".
      $endgroup$
      – fleablood
      Apr 3 at 3:15










    • $begingroup$
      @fleablood: No, in general there are infinitely many quadrilaterals with the same sides in the same order. See Bretschneider's formula for area of a quadrilateral given all sides and 2 opposite angles.
      $endgroup$
      – user21820
      Apr 3 at 12:04










    • $begingroup$
      The rectangle appears to be drawn with "thickness", and if we assume that the thickness is perpendicular to the other sides, we might be able to figure out where the horizon is ... but I'm not sure that there is actually any consistent solution; the other two corners don't have thickness, which imposes constraints on the horizon (it must be such that the other "side" of the thickness for those corners is behind the corners) that may not be satisfiable.
      $endgroup$
      – Acccumulation
      Apr 3 at 15:46











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    3 Answers
    3






    active

    oldest

    votes








    3 Answers
    3






    active

    oldest

    votes









    active

    oldest

    votes






    active

    oldest

    votes









    25












    $begingroup$

    You are right. The provided explanation is nonsensical. $DC$ cannot be assumed to be a right angle.



    However, if you don't make that assumption, and take $BC$ as the only given right angle, the correct answer is "All four sides must be known."



    The quadrilateral can be decomposed into two non-overlapping triangles. The first is a right angled triangle formed by sides $B$, $C$ and a hypotenuse, and its area is easy to determine. You can use Pythagoras' Theorem to find the hypotenuse of that right triangle formed by sides $B$ and $C$. That hypotenuse, together with sides $A$ and $D$ forms the other triangle. Its area can be computed using Heron's formula. Just sum the areas.



    Note that I'm still making a tacit assumption that this is a convex quadrilateral. A concave quadrilateral is possible with the angle $AD$ being reflex, which is seemingly not representative of the diagram given, but is a possibility when one only has the information of a single right angle and four given sides. In the case of a concave quadrilateral, the area calculation that I detailed above would not be correct.






    share|cite|improve this answer











    $endgroup$








    • 1




      $begingroup$
      Perfect, thank you!
      $endgroup$
      – Jack O.
      Apr 3 at 3:21










    • $begingroup$
      You're welcome.
      $endgroup$
      – Deepak
      Apr 3 at 3:24






    • 2




      $begingroup$
      +1 for Heron's formula - I learned something new today
      $endgroup$
      – slebetman
      Apr 3 at 9:31






    • 11




      $begingroup$
      @Deepak No, that's not correct. I took some time to double check. For example, see this image representing two quadrilaterals, both satisfying the conditions in the problem, both with the same side lengths, but having different areas - one is strictly smaller than the other.
      $endgroup$
      – David Z
      Apr 3 at 10:02






    • 4




      $begingroup$
      @Deepak Yes, that was exactly my point, that you can have a concave and convex quadrilateral with the same side lengths. Given that the question is about not assuming things that aren't explicitly stated, I think it may be worth at least mentioning that assumption.
      $endgroup$
      – David Z
      Apr 3 at 10:41















    25












    $begingroup$

    You are right. The provided explanation is nonsensical. $DC$ cannot be assumed to be a right angle.



    However, if you don't make that assumption, and take $BC$ as the only given right angle, the correct answer is "All four sides must be known."



    The quadrilateral can be decomposed into two non-overlapping triangles. The first is a right angled triangle formed by sides $B$, $C$ and a hypotenuse, and its area is easy to determine. You can use Pythagoras' Theorem to find the hypotenuse of that right triangle formed by sides $B$ and $C$. That hypotenuse, together with sides $A$ and $D$ forms the other triangle. Its area can be computed using Heron's formula. Just sum the areas.



    Note that I'm still making a tacit assumption that this is a convex quadrilateral. A concave quadrilateral is possible with the angle $AD$ being reflex, which is seemingly not representative of the diagram given, but is a possibility when one only has the information of a single right angle and four given sides. In the case of a concave quadrilateral, the area calculation that I detailed above would not be correct.






    share|cite|improve this answer











    $endgroup$








    • 1




      $begingroup$
      Perfect, thank you!
      $endgroup$
      – Jack O.
      Apr 3 at 3:21










    • $begingroup$
      You're welcome.
      $endgroup$
      – Deepak
      Apr 3 at 3:24






    • 2




      $begingroup$
      +1 for Heron's formula - I learned something new today
      $endgroup$
      – slebetman
      Apr 3 at 9:31






    • 11




      $begingroup$
      @Deepak No, that's not correct. I took some time to double check. For example, see this image representing two quadrilaterals, both satisfying the conditions in the problem, both with the same side lengths, but having different areas - one is strictly smaller than the other.
      $endgroup$
      – David Z
      Apr 3 at 10:02






    • 4




      $begingroup$
      @Deepak Yes, that was exactly my point, that you can have a concave and convex quadrilateral with the same side lengths. Given that the question is about not assuming things that aren't explicitly stated, I think it may be worth at least mentioning that assumption.
      $endgroup$
      – David Z
      Apr 3 at 10:41













    25












    25








    25





    $begingroup$

    You are right. The provided explanation is nonsensical. $DC$ cannot be assumed to be a right angle.



    However, if you don't make that assumption, and take $BC$ as the only given right angle, the correct answer is "All four sides must be known."



    The quadrilateral can be decomposed into two non-overlapping triangles. The first is a right angled triangle formed by sides $B$, $C$ and a hypotenuse, and its area is easy to determine. You can use Pythagoras' Theorem to find the hypotenuse of that right triangle formed by sides $B$ and $C$. That hypotenuse, together with sides $A$ and $D$ forms the other triangle. Its area can be computed using Heron's formula. Just sum the areas.



    Note that I'm still making a tacit assumption that this is a convex quadrilateral. A concave quadrilateral is possible with the angle $AD$ being reflex, which is seemingly not representative of the diagram given, but is a possibility when one only has the information of a single right angle and four given sides. In the case of a concave quadrilateral, the area calculation that I detailed above would not be correct.






    share|cite|improve this answer











    $endgroup$



    You are right. The provided explanation is nonsensical. $DC$ cannot be assumed to be a right angle.



    However, if you don't make that assumption, and take $BC$ as the only given right angle, the correct answer is "All four sides must be known."



    The quadrilateral can be decomposed into two non-overlapping triangles. The first is a right angled triangle formed by sides $B$, $C$ and a hypotenuse, and its area is easy to determine. You can use Pythagoras' Theorem to find the hypotenuse of that right triangle formed by sides $B$ and $C$. That hypotenuse, together with sides $A$ and $D$ forms the other triangle. Its area can be computed using Heron's formula. Just sum the areas.



    Note that I'm still making a tacit assumption that this is a convex quadrilateral. A concave quadrilateral is possible with the angle $AD$ being reflex, which is seemingly not representative of the diagram given, but is a possibility when one only has the information of a single right angle and four given sides. In the case of a concave quadrilateral, the area calculation that I detailed above would not be correct.







    share|cite|improve this answer














    share|cite|improve this answer



    share|cite|improve this answer








    edited Apr 3 at 11:08

























    answered Apr 3 at 3:10









    DeepakDeepak

    17.9k11640




    17.9k11640







    • 1




      $begingroup$
      Perfect, thank you!
      $endgroup$
      – Jack O.
      Apr 3 at 3:21










    • $begingroup$
      You're welcome.
      $endgroup$
      – Deepak
      Apr 3 at 3:24






    • 2




      $begingroup$
      +1 for Heron's formula - I learned something new today
      $endgroup$
      – slebetman
      Apr 3 at 9:31






    • 11




      $begingroup$
      @Deepak No, that's not correct. I took some time to double check. For example, see this image representing two quadrilaterals, both satisfying the conditions in the problem, both with the same side lengths, but having different areas - one is strictly smaller than the other.
      $endgroup$
      – David Z
      Apr 3 at 10:02






    • 4




      $begingroup$
      @Deepak Yes, that was exactly my point, that you can have a concave and convex quadrilateral with the same side lengths. Given that the question is about not assuming things that aren't explicitly stated, I think it may be worth at least mentioning that assumption.
      $endgroup$
      – David Z
      Apr 3 at 10:41












    • 1




      $begingroup$
      Perfect, thank you!
      $endgroup$
      – Jack O.
      Apr 3 at 3:21










    • $begingroup$
      You're welcome.
      $endgroup$
      – Deepak
      Apr 3 at 3:24






    • 2




      $begingroup$
      +1 for Heron's formula - I learned something new today
      $endgroup$
      – slebetman
      Apr 3 at 9:31






    • 11




      $begingroup$
      @Deepak No, that's not correct. I took some time to double check. For example, see this image representing two quadrilaterals, both satisfying the conditions in the problem, both with the same side lengths, but having different areas - one is strictly smaller than the other.
      $endgroup$
      – David Z
      Apr 3 at 10:02






    • 4




      $begingroup$
      @Deepak Yes, that was exactly my point, that you can have a concave and convex quadrilateral with the same side lengths. Given that the question is about not assuming things that aren't explicitly stated, I think it may be worth at least mentioning that assumption.
      $endgroup$
      – David Z
      Apr 3 at 10:41







    1




    1




    $begingroup$
    Perfect, thank you!
    $endgroup$
    – Jack O.
    Apr 3 at 3:21




    $begingroup$
    Perfect, thank you!
    $endgroup$
    – Jack O.
    Apr 3 at 3:21












    $begingroup$
    You're welcome.
    $endgroup$
    – Deepak
    Apr 3 at 3:24




    $begingroup$
    You're welcome.
    $endgroup$
    – Deepak
    Apr 3 at 3:24




    2




    2




    $begingroup$
    +1 for Heron's formula - I learned something new today
    $endgroup$
    – slebetman
    Apr 3 at 9:31




    $begingroup$
    +1 for Heron's formula - I learned something new today
    $endgroup$
    – slebetman
    Apr 3 at 9:31




    11




    11




    $begingroup$
    @Deepak No, that's not correct. I took some time to double check. For example, see this image representing two quadrilaterals, both satisfying the conditions in the problem, both with the same side lengths, but having different areas - one is strictly smaller than the other.
    $endgroup$
    – David Z
    Apr 3 at 10:02




    $begingroup$
    @Deepak No, that's not correct. I took some time to double check. For example, see this image representing two quadrilaterals, both satisfying the conditions in the problem, both with the same side lengths, but having different areas - one is strictly smaller than the other.
    $endgroup$
    – David Z
    Apr 3 at 10:02




    4




    4




    $begingroup$
    @Deepak Yes, that was exactly my point, that you can have a concave and convex quadrilateral with the same side lengths. Given that the question is about not assuming things that aren't explicitly stated, I think it may be worth at least mentioning that assumption.
    $endgroup$
    – David Z
    Apr 3 at 10:41




    $begingroup$
    @Deepak Yes, that was exactly my point, that you can have a concave and convex quadrilateral with the same side lengths. Given that the question is about not assuming things that aren't explicitly stated, I think it may be worth at least mentioning that assumption.
    $endgroup$
    – David Z
    Apr 3 at 10:41











    14












    $begingroup$

    You are correct that the given solution is wrong. Worse still, even if you know that the angles between BC and CD are both right-angles, the purported answer is still wrong! This is because if you're given the lengths of A,B,C, it still does not uniquely determine D because we are not told that the angle between AB is less than $90°$.



    In general, it is not enough even if you have all four side lengths. For example, consider convex quadrilateral $PQRS$ such that $PQ = 6$ and $QR = 9$ and $RS = 7$ and $SP = 8$. It is possible that $P,R$ are slightly less than $15$ apart, making $PQRS$ a very skinny quadrilateral whose area can be made arbitrarily close to zero. Alternatively, moving $P,R$ to a distance of $10$ makes $PQRS$ rather square-like with area clearly more than $48$. Bretschneider's formula gives the area for an arbitrary quadrilateral, and you can see from it as well that fixing the side lengths is not enough to determine the area, since it also varies with the sum of two opposite angles.






    share|cite|improve this answer











    $endgroup$

















      14












      $begingroup$

      You are correct that the given solution is wrong. Worse still, even if you know that the angles between BC and CD are both right-angles, the purported answer is still wrong! This is because if you're given the lengths of A,B,C, it still does not uniquely determine D because we are not told that the angle between AB is less than $90°$.



      In general, it is not enough even if you have all four side lengths. For example, consider convex quadrilateral $PQRS$ such that $PQ = 6$ and $QR = 9$ and $RS = 7$ and $SP = 8$. It is possible that $P,R$ are slightly less than $15$ apart, making $PQRS$ a very skinny quadrilateral whose area can be made arbitrarily close to zero. Alternatively, moving $P,R$ to a distance of $10$ makes $PQRS$ rather square-like with area clearly more than $48$. Bretschneider's formula gives the area for an arbitrary quadrilateral, and you can see from it as well that fixing the side lengths is not enough to determine the area, since it also varies with the sum of two opposite angles.






      share|cite|improve this answer











      $endgroup$















        14












        14








        14





        $begingroup$

        You are correct that the given solution is wrong. Worse still, even if you know that the angles between BC and CD are both right-angles, the purported answer is still wrong! This is because if you're given the lengths of A,B,C, it still does not uniquely determine D because we are not told that the angle between AB is less than $90°$.



        In general, it is not enough even if you have all four side lengths. For example, consider convex quadrilateral $PQRS$ such that $PQ = 6$ and $QR = 9$ and $RS = 7$ and $SP = 8$. It is possible that $P,R$ are slightly less than $15$ apart, making $PQRS$ a very skinny quadrilateral whose area can be made arbitrarily close to zero. Alternatively, moving $P,R$ to a distance of $10$ makes $PQRS$ rather square-like with area clearly more than $48$. Bretschneider's formula gives the area for an arbitrary quadrilateral, and you can see from it as well that fixing the side lengths is not enough to determine the area, since it also varies with the sum of two opposite angles.






        share|cite|improve this answer











        $endgroup$



        You are correct that the given solution is wrong. Worse still, even if you know that the angles between BC and CD are both right-angles, the purported answer is still wrong! This is because if you're given the lengths of A,B,C, it still does not uniquely determine D because we are not told that the angle between AB is less than $90°$.



        In general, it is not enough even if you have all four side lengths. For example, consider convex quadrilateral $PQRS$ such that $PQ = 6$ and $QR = 9$ and $RS = 7$ and $SP = 8$. It is possible that $P,R$ are slightly less than $15$ apart, making $PQRS$ a very skinny quadrilateral whose area can be made arbitrarily close to zero. Alternatively, moving $P,R$ to a distance of $10$ makes $PQRS$ rather square-like with area clearly more than $48$. Bretschneider's formula gives the area for an arbitrary quadrilateral, and you can see from it as well that fixing the side lengths is not enough to determine the area, since it also varies with the sum of two opposite angles.







        share|cite|improve this answer














        share|cite|improve this answer



        share|cite|improve this answer








        edited Apr 3 at 12:29

























        answered Apr 3 at 3:55









        user21820user21820

        40k544161




        40k544161





















            9












            $begingroup$

            You are right: there is absolutely no indication that angle $DC$ is a right angle. If they wanted you to assume it was a right angle, they should have indicated that with another $90$. It really doesn't even look like a right angle (somebody had the bright idea of trying to render the picture in perspective, but we don't even know where the horizon is supposed to be).






            share|cite|improve this answer









            $endgroup$












            • $begingroup$
              That's what I thought. It should explicitly state if any angles are right. However my second question remains, given DC is ambiguous, is this question solvable? I don't think there would be enough information to solve in this case.
              $endgroup$
              – Jack O.
              Apr 3 at 2:52










            • $begingroup$
              @JackO. See my answer. The correct answer would be "All sides must be known".
              $endgroup$
              – Deepak
              Apr 3 at 3:11










            • $begingroup$
              If we know all four lengths and assume no angle is more than 180, then I think there is only one quadrilateral so the area will be unique. I think. But you need all four. If you only three the fourth can be many lengths if the third one "swings".
              $endgroup$
              – fleablood
              Apr 3 at 3:15










            • $begingroup$
              @fleablood: No, in general there are infinitely many quadrilaterals with the same sides in the same order. See Bretschneider's formula for area of a quadrilateral given all sides and 2 opposite angles.
              $endgroup$
              – user21820
              Apr 3 at 12:04










            • $begingroup$
              The rectangle appears to be drawn with "thickness", and if we assume that the thickness is perpendicular to the other sides, we might be able to figure out where the horizon is ... but I'm not sure that there is actually any consistent solution; the other two corners don't have thickness, which imposes constraints on the horizon (it must be such that the other "side" of the thickness for those corners is behind the corners) that may not be satisfiable.
              $endgroup$
              – Acccumulation
              Apr 3 at 15:46















            9












            $begingroup$

            You are right: there is absolutely no indication that angle $DC$ is a right angle. If they wanted you to assume it was a right angle, they should have indicated that with another $90$. It really doesn't even look like a right angle (somebody had the bright idea of trying to render the picture in perspective, but we don't even know where the horizon is supposed to be).






            share|cite|improve this answer









            $endgroup$












            • $begingroup$
              That's what I thought. It should explicitly state if any angles are right. However my second question remains, given DC is ambiguous, is this question solvable? I don't think there would be enough information to solve in this case.
              $endgroup$
              – Jack O.
              Apr 3 at 2:52










            • $begingroup$
              @JackO. See my answer. The correct answer would be "All sides must be known".
              $endgroup$
              – Deepak
              Apr 3 at 3:11










            • $begingroup$
              If we know all four lengths and assume no angle is more than 180, then I think there is only one quadrilateral so the area will be unique. I think. But you need all four. If you only three the fourth can be many lengths if the third one "swings".
              $endgroup$
              – fleablood
              Apr 3 at 3:15










            • $begingroup$
              @fleablood: No, in general there are infinitely many quadrilaterals with the same sides in the same order. See Bretschneider's formula for area of a quadrilateral given all sides and 2 opposite angles.
              $endgroup$
              – user21820
              Apr 3 at 12:04










            • $begingroup$
              The rectangle appears to be drawn with "thickness", and if we assume that the thickness is perpendicular to the other sides, we might be able to figure out where the horizon is ... but I'm not sure that there is actually any consistent solution; the other two corners don't have thickness, which imposes constraints on the horizon (it must be such that the other "side" of the thickness for those corners is behind the corners) that may not be satisfiable.
              $endgroup$
              – Acccumulation
              Apr 3 at 15:46













            9












            9








            9





            $begingroup$

            You are right: there is absolutely no indication that angle $DC$ is a right angle. If they wanted you to assume it was a right angle, they should have indicated that with another $90$. It really doesn't even look like a right angle (somebody had the bright idea of trying to render the picture in perspective, but we don't even know where the horizon is supposed to be).






            share|cite|improve this answer









            $endgroup$



            You are right: there is absolutely no indication that angle $DC$ is a right angle. If they wanted you to assume it was a right angle, they should have indicated that with another $90$. It really doesn't even look like a right angle (somebody had the bright idea of trying to render the picture in perspective, but we don't even know where the horizon is supposed to be).







            share|cite|improve this answer












            share|cite|improve this answer



            share|cite|improve this answer










            answered Apr 3 at 2:46









            Robert IsraelRobert Israel

            330k23219473




            330k23219473











            • $begingroup$
              That's what I thought. It should explicitly state if any angles are right. However my second question remains, given DC is ambiguous, is this question solvable? I don't think there would be enough information to solve in this case.
              $endgroup$
              – Jack O.
              Apr 3 at 2:52










            • $begingroup$
              @JackO. See my answer. The correct answer would be "All sides must be known".
              $endgroup$
              – Deepak
              Apr 3 at 3:11










            • $begingroup$
              If we know all four lengths and assume no angle is more than 180, then I think there is only one quadrilateral so the area will be unique. I think. But you need all four. If you only three the fourth can be many lengths if the third one "swings".
              $endgroup$
              – fleablood
              Apr 3 at 3:15










            • $begingroup$
              @fleablood: No, in general there are infinitely many quadrilaterals with the same sides in the same order. See Bretschneider's formula for area of a quadrilateral given all sides and 2 opposite angles.
              $endgroup$
              – user21820
              Apr 3 at 12:04










            • $begingroup$
              The rectangle appears to be drawn with "thickness", and if we assume that the thickness is perpendicular to the other sides, we might be able to figure out where the horizon is ... but I'm not sure that there is actually any consistent solution; the other two corners don't have thickness, which imposes constraints on the horizon (it must be such that the other "side" of the thickness for those corners is behind the corners) that may not be satisfiable.
              $endgroup$
              – Acccumulation
              Apr 3 at 15:46
















            • $begingroup$
              That's what I thought. It should explicitly state if any angles are right. However my second question remains, given DC is ambiguous, is this question solvable? I don't think there would be enough information to solve in this case.
              $endgroup$
              – Jack O.
              Apr 3 at 2:52










            • $begingroup$
              @JackO. See my answer. The correct answer would be "All sides must be known".
              $endgroup$
              – Deepak
              Apr 3 at 3:11










            • $begingroup$
              If we know all four lengths and assume no angle is more than 180, then I think there is only one quadrilateral so the area will be unique. I think. But you need all four. If you only three the fourth can be many lengths if the third one "swings".
              $endgroup$
              – fleablood
              Apr 3 at 3:15










            • $begingroup$
              @fleablood: No, in general there are infinitely many quadrilaterals with the same sides in the same order. See Bretschneider's formula for area of a quadrilateral given all sides and 2 opposite angles.
              $endgroup$
              – user21820
              Apr 3 at 12:04










            • $begingroup$
              The rectangle appears to be drawn with "thickness", and if we assume that the thickness is perpendicular to the other sides, we might be able to figure out where the horizon is ... but I'm not sure that there is actually any consistent solution; the other two corners don't have thickness, which imposes constraints on the horizon (it must be such that the other "side" of the thickness for those corners is behind the corners) that may not be satisfiable.
              $endgroup$
              – Acccumulation
              Apr 3 at 15:46















            $begingroup$
            That's what I thought. It should explicitly state if any angles are right. However my second question remains, given DC is ambiguous, is this question solvable? I don't think there would be enough information to solve in this case.
            $endgroup$
            – Jack O.
            Apr 3 at 2:52




            $begingroup$
            That's what I thought. It should explicitly state if any angles are right. However my second question remains, given DC is ambiguous, is this question solvable? I don't think there would be enough information to solve in this case.
            $endgroup$
            – Jack O.
            Apr 3 at 2:52












            $begingroup$
            @JackO. See my answer. The correct answer would be "All sides must be known".
            $endgroup$
            – Deepak
            Apr 3 at 3:11




            $begingroup$
            @JackO. See my answer. The correct answer would be "All sides must be known".
            $endgroup$
            – Deepak
            Apr 3 at 3:11












            $begingroup$
            If we know all four lengths and assume no angle is more than 180, then I think there is only one quadrilateral so the area will be unique. I think. But you need all four. If you only three the fourth can be many lengths if the third one "swings".
            $endgroup$
            – fleablood
            Apr 3 at 3:15




            $begingroup$
            If we know all four lengths and assume no angle is more than 180, then I think there is only one quadrilateral so the area will be unique. I think. But you need all four. If you only three the fourth can be many lengths if the third one "swings".
            $endgroup$
            – fleablood
            Apr 3 at 3:15












            $begingroup$
            @fleablood: No, in general there are infinitely many quadrilaterals with the same sides in the same order. See Bretschneider's formula for area of a quadrilateral given all sides and 2 opposite angles.
            $endgroup$
            – user21820
            Apr 3 at 12:04




            $begingroup$
            @fleablood: No, in general there are infinitely many quadrilaterals with the same sides in the same order. See Bretschneider's formula for area of a quadrilateral given all sides and 2 opposite angles.
            $endgroup$
            – user21820
            Apr 3 at 12:04












            $begingroup$
            The rectangle appears to be drawn with "thickness", and if we assume that the thickness is perpendicular to the other sides, we might be able to figure out where the horizon is ... but I'm not sure that there is actually any consistent solution; the other two corners don't have thickness, which imposes constraints on the horizon (it must be such that the other "side" of the thickness for those corners is behind the corners) that may not be satisfiable.
            $endgroup$
            – Acccumulation
            Apr 3 at 15:46




            $begingroup$
            The rectangle appears to be drawn with "thickness", and if we assume that the thickness is perpendicular to the other sides, we might be able to figure out where the horizon is ... but I'm not sure that there is actually any consistent solution; the other two corners don't have thickness, which imposes constraints on the horizon (it must be such that the other "side" of the thickness for those corners is behind the corners) that may not be satisfiable.
            $endgroup$
            – Acccumulation
            Apr 3 at 15:46










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