Prove all right angles are congruent?











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Prove all right angles are congruent.



I only have to prove one side to this argument, so I just need to the the other argument.



So basically, if two angles are right, then they must be congruent is what I am trying to prove.



All I have is my assumption that the two angles are right. And conclusion, therefore the angles are congruent.










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  • 1




    What is your definition of Right Angle?
    – Daniel
    Apr 1 '15 at 0:00






  • 1




    an angle that is congruent to one of its supplements
    – user217443
    Apr 1 '15 at 0:07










  • if it helps, I have already proven that an angle congruent to a right angle, is also a right angle.
    – user217443
    Apr 1 '15 at 0:07










  • Don't have that yet
    – user217443
    Apr 1 '15 at 0:26






  • 10




    In the context of Eulid's Elements, this is a Postulate.
    – André Nicolas
    Apr 1 '15 at 1:26















up vote
3
down vote

favorite
1












Prove all right angles are congruent.



I only have to prove one side to this argument, so I just need to the the other argument.



So basically, if two angles are right, then they must be congruent is what I am trying to prove.



All I have is my assumption that the two angles are right. And conclusion, therefore the angles are congruent.










share|cite|improve this question


















  • 1




    What is your definition of Right Angle?
    – Daniel
    Apr 1 '15 at 0:00






  • 1




    an angle that is congruent to one of its supplements
    – user217443
    Apr 1 '15 at 0:07










  • if it helps, I have already proven that an angle congruent to a right angle, is also a right angle.
    – user217443
    Apr 1 '15 at 0:07










  • Don't have that yet
    – user217443
    Apr 1 '15 at 0:26






  • 10




    In the context of Eulid's Elements, this is a Postulate.
    – André Nicolas
    Apr 1 '15 at 1:26













up vote
3
down vote

favorite
1









up vote
3
down vote

favorite
1






1





Prove all right angles are congruent.



I only have to prove one side to this argument, so I just need to the the other argument.



So basically, if two angles are right, then they must be congruent is what I am trying to prove.



All I have is my assumption that the two angles are right. And conclusion, therefore the angles are congruent.










share|cite|improve this question













Prove all right angles are congruent.



I only have to prove one side to this argument, so I just need to the the other argument.



So basically, if two angles are right, then they must be congruent is what I am trying to prove.



All I have is my assumption that the two angles are right. And conclusion, therefore the angles are congruent.







geometry euclidean-geometry noneuclidean-geometry






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asked Mar 31 '15 at 23:50









user217443

2913




2913








  • 1




    What is your definition of Right Angle?
    – Daniel
    Apr 1 '15 at 0:00






  • 1




    an angle that is congruent to one of its supplements
    – user217443
    Apr 1 '15 at 0:07










  • if it helps, I have already proven that an angle congruent to a right angle, is also a right angle.
    – user217443
    Apr 1 '15 at 0:07










  • Don't have that yet
    – user217443
    Apr 1 '15 at 0:26






  • 10




    In the context of Eulid's Elements, this is a Postulate.
    – André Nicolas
    Apr 1 '15 at 1:26














  • 1




    What is your definition of Right Angle?
    – Daniel
    Apr 1 '15 at 0:00






  • 1




    an angle that is congruent to one of its supplements
    – user217443
    Apr 1 '15 at 0:07










  • if it helps, I have already proven that an angle congruent to a right angle, is also a right angle.
    – user217443
    Apr 1 '15 at 0:07










  • Don't have that yet
    – user217443
    Apr 1 '15 at 0:26






  • 10




    In the context of Eulid's Elements, this is a Postulate.
    – André Nicolas
    Apr 1 '15 at 1:26








1




1




What is your definition of Right Angle?
– Daniel
Apr 1 '15 at 0:00




What is your definition of Right Angle?
– Daniel
Apr 1 '15 at 0:00




1




1




an angle that is congruent to one of its supplements
– user217443
Apr 1 '15 at 0:07




an angle that is congruent to one of its supplements
– user217443
Apr 1 '15 at 0:07












if it helps, I have already proven that an angle congruent to a right angle, is also a right angle.
– user217443
Apr 1 '15 at 0:07




if it helps, I have already proven that an angle congruent to a right angle, is also a right angle.
– user217443
Apr 1 '15 at 0:07












Don't have that yet
– user217443
Apr 1 '15 at 0:26




Don't have that yet
– user217443
Apr 1 '15 at 0:26




10




10




In the context of Eulid's Elements, this is a Postulate.
– André Nicolas
Apr 1 '15 at 1:26




In the context of Eulid's Elements, this is a Postulate.
– André Nicolas
Apr 1 '15 at 1:26










4 Answers
4






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We say that the angle $measuredangle AOB$ is the supplement of the angle $measuredangle Y$ if the latter is congruent to an adjacent angle $measuredangle BOC$ to $measuredangle AOB$ such that the points $A$, $O$ and $C$ are colineal.



Using this definition and the fact that an angle is Right iff it's congruent to one of its supplements (by definition), you can prove that all right angles are congruent as follows:



Let $measuredangle AOB$ be a right angle, then it's congruent to one of its supplements (and therefore to all of them). Let $measuredangle BOC$ be an adjacent supplement of $measuredangle AOB$, then $measuredangle AOB cong measuredangle BOC$ and $A$, $0$, $C$ are colineal.



Now let $Y$ be any other right angle and consider $D$ an exterior point of $measuredangle AOB$ such that $measuredangle AOD$ is a right angle congruent to $Y$. Here you have to prove that: $B$, $O$ and $D$ are colineal and once you have this prove that $measuredangle AOBcong measuredangle AOD$ (using "vertex opposites" arguments), I'm leaving that to you.






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    down vote













    If you define a right angle as the bisector of a straight angle - analogous to the idea of folding over a straight edge to get a fold perpendicular to that fold, with the same angle either side of the fold line to the straight line - it is clear that since straight lines are taken as similar, and you can create a straight angle by placing a point on a straight line, all bisectors of straight angles - all right angles - are also congruent.






    share|cite|improve this answer




























      up vote
      0
      down vote













      A straight angle has two right angles. If two angles are such that a supplement of the one equals itself then each must be a right angle. Since only a single parameter is involved congruence is established.






      share|cite|improve this answer




























        up vote
        0
        down vote













        By supplements do you mean they sum to 180 degrees or would form a line if they were adjacent? Have you considered a proof by contradiction? I love those! Then you could assume you have two right angles which are not congruent. Going that route we are given angle A is a right angle, angle 1 is a right angle, and angle A is not congruent to angle 1. Then there exists angle B which is a congruent supplement and linear pair to angle A and angle 2 which is a congruent supplement and linear pair to angle 1. Assuming that all lines are the same degrees (180 or whatever), angle B and angle 2 are both half lines (90 degrees or whatever). So angle B and angle 2 have the same measure and are congruent, which should bring about our contradiction. Angle A is congruent to angle B, angle B is congruent to angle 2, angle 2 is congruent to angle 1, so angle A is congruent to angle 1, except that it isn't by definition. Might have to do a little cleaning up in the middle there if you move from congruence to numbers and back.






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          4 Answers
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          4 Answers
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          We say that the angle $measuredangle AOB$ is the supplement of the angle $measuredangle Y$ if the latter is congruent to an adjacent angle $measuredangle BOC$ to $measuredangle AOB$ such that the points $A$, $O$ and $C$ are colineal.



          Using this definition and the fact that an angle is Right iff it's congruent to one of its supplements (by definition), you can prove that all right angles are congruent as follows:



          Let $measuredangle AOB$ be a right angle, then it's congruent to one of its supplements (and therefore to all of them). Let $measuredangle BOC$ be an adjacent supplement of $measuredangle AOB$, then $measuredangle AOB cong measuredangle BOC$ and $A$, $0$, $C$ are colineal.



          Now let $Y$ be any other right angle and consider $D$ an exterior point of $measuredangle AOB$ such that $measuredangle AOD$ is a right angle congruent to $Y$. Here you have to prove that: $B$, $O$ and $D$ are colineal and once you have this prove that $measuredangle AOBcong measuredangle AOD$ (using "vertex opposites" arguments), I'm leaving that to you.






          share|cite|improve this answer



























            up vote
            0
            down vote













            We say that the angle $measuredangle AOB$ is the supplement of the angle $measuredangle Y$ if the latter is congruent to an adjacent angle $measuredangle BOC$ to $measuredangle AOB$ such that the points $A$, $O$ and $C$ are colineal.



            Using this definition and the fact that an angle is Right iff it's congruent to one of its supplements (by definition), you can prove that all right angles are congruent as follows:



            Let $measuredangle AOB$ be a right angle, then it's congruent to one of its supplements (and therefore to all of them). Let $measuredangle BOC$ be an adjacent supplement of $measuredangle AOB$, then $measuredangle AOB cong measuredangle BOC$ and $A$, $0$, $C$ are colineal.



            Now let $Y$ be any other right angle and consider $D$ an exterior point of $measuredangle AOB$ such that $measuredangle AOD$ is a right angle congruent to $Y$. Here you have to prove that: $B$, $O$ and $D$ are colineal and once you have this prove that $measuredangle AOBcong measuredangle AOD$ (using "vertex opposites" arguments), I'm leaving that to you.






            share|cite|improve this answer

























              up vote
              0
              down vote










              up vote
              0
              down vote









              We say that the angle $measuredangle AOB$ is the supplement of the angle $measuredangle Y$ if the latter is congruent to an adjacent angle $measuredangle BOC$ to $measuredangle AOB$ such that the points $A$, $O$ and $C$ are colineal.



              Using this definition and the fact that an angle is Right iff it's congruent to one of its supplements (by definition), you can prove that all right angles are congruent as follows:



              Let $measuredangle AOB$ be a right angle, then it's congruent to one of its supplements (and therefore to all of them). Let $measuredangle BOC$ be an adjacent supplement of $measuredangle AOB$, then $measuredangle AOB cong measuredangle BOC$ and $A$, $0$, $C$ are colineal.



              Now let $Y$ be any other right angle and consider $D$ an exterior point of $measuredangle AOB$ such that $measuredangle AOD$ is a right angle congruent to $Y$. Here you have to prove that: $B$, $O$ and $D$ are colineal and once you have this prove that $measuredangle AOBcong measuredangle AOD$ (using "vertex opposites" arguments), I'm leaving that to you.






              share|cite|improve this answer














              We say that the angle $measuredangle AOB$ is the supplement of the angle $measuredangle Y$ if the latter is congruent to an adjacent angle $measuredangle BOC$ to $measuredangle AOB$ such that the points $A$, $O$ and $C$ are colineal.



              Using this definition and the fact that an angle is Right iff it's congruent to one of its supplements (by definition), you can prove that all right angles are congruent as follows:



              Let $measuredangle AOB$ be a right angle, then it's congruent to one of its supplements (and therefore to all of them). Let $measuredangle BOC$ be an adjacent supplement of $measuredangle AOB$, then $measuredangle AOB cong measuredangle BOC$ and $A$, $0$, $C$ are colineal.



              Now let $Y$ be any other right angle and consider $D$ an exterior point of $measuredangle AOB$ such that $measuredangle AOD$ is a right angle congruent to $Y$. Here you have to prove that: $B$, $O$ and $D$ are colineal and once you have this prove that $measuredangle AOBcong measuredangle AOD$ (using "vertex opposites" arguments), I'm leaving that to you.







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              share|cite|improve this answer



              share|cite|improve this answer








              edited Apr 1 '15 at 2:03

























              answered Apr 1 '15 at 0:59









              Daniel

              5,64521639




              5,64521639






















                  up vote
                  0
                  down vote













                  If you define a right angle as the bisector of a straight angle - analogous to the idea of folding over a straight edge to get a fold perpendicular to that fold, with the same angle either side of the fold line to the straight line - it is clear that since straight lines are taken as similar, and you can create a straight angle by placing a point on a straight line, all bisectors of straight angles - all right angles - are also congruent.






                  share|cite|improve this answer

























                    up vote
                    0
                    down vote













                    If you define a right angle as the bisector of a straight angle - analogous to the idea of folding over a straight edge to get a fold perpendicular to that fold, with the same angle either side of the fold line to the straight line - it is clear that since straight lines are taken as similar, and you can create a straight angle by placing a point on a straight line, all bisectors of straight angles - all right angles - are also congruent.






                    share|cite|improve this answer























                      up vote
                      0
                      down vote










                      up vote
                      0
                      down vote









                      If you define a right angle as the bisector of a straight angle - analogous to the idea of folding over a straight edge to get a fold perpendicular to that fold, with the same angle either side of the fold line to the straight line - it is clear that since straight lines are taken as similar, and you can create a straight angle by placing a point on a straight line, all bisectors of straight angles - all right angles - are also congruent.






                      share|cite|improve this answer












                      If you define a right angle as the bisector of a straight angle - analogous to the idea of folding over a straight edge to get a fold perpendicular to that fold, with the same angle either side of the fold line to the straight line - it is clear that since straight lines are taken as similar, and you can create a straight angle by placing a point on a straight line, all bisectors of straight angles - all right angles - are also congruent.







                      share|cite|improve this answer












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                      answered Feb 1 '17 at 9:28









                      Joffan

                      32.1k43169




                      32.1k43169






















                          up vote
                          0
                          down vote













                          A straight angle has two right angles. If two angles are such that a supplement of the one equals itself then each must be a right angle. Since only a single parameter is involved congruence is established.






                          share|cite|improve this answer

























                            up vote
                            0
                            down vote













                            A straight angle has two right angles. If two angles are such that a supplement of the one equals itself then each must be a right angle. Since only a single parameter is involved congruence is established.






                            share|cite|improve this answer























                              up vote
                              0
                              down vote










                              up vote
                              0
                              down vote









                              A straight angle has two right angles. If two angles are such that a supplement of the one equals itself then each must be a right angle. Since only a single parameter is involved congruence is established.






                              share|cite|improve this answer












                              A straight angle has two right angles. If two angles are such that a supplement of the one equals itself then each must be a right angle. Since only a single parameter is involved congruence is established.







                              share|cite|improve this answer












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                              share|cite|improve this answer










                              answered Jul 20 '17 at 15:08









                              Narasimham

                              20.5k52158




                              20.5k52158






















                                  up vote
                                  0
                                  down vote













                                  By supplements do you mean they sum to 180 degrees or would form a line if they were adjacent? Have you considered a proof by contradiction? I love those! Then you could assume you have two right angles which are not congruent. Going that route we are given angle A is a right angle, angle 1 is a right angle, and angle A is not congruent to angle 1. Then there exists angle B which is a congruent supplement and linear pair to angle A and angle 2 which is a congruent supplement and linear pair to angle 1. Assuming that all lines are the same degrees (180 or whatever), angle B and angle 2 are both half lines (90 degrees or whatever). So angle B and angle 2 have the same measure and are congruent, which should bring about our contradiction. Angle A is congruent to angle B, angle B is congruent to angle 2, angle 2 is congruent to angle 1, so angle A is congruent to angle 1, except that it isn't by definition. Might have to do a little cleaning up in the middle there if you move from congruence to numbers and back.






                                  share|cite|improve this answer

























                                    up vote
                                    0
                                    down vote













                                    By supplements do you mean they sum to 180 degrees or would form a line if they were adjacent? Have you considered a proof by contradiction? I love those! Then you could assume you have two right angles which are not congruent. Going that route we are given angle A is a right angle, angle 1 is a right angle, and angle A is not congruent to angle 1. Then there exists angle B which is a congruent supplement and linear pair to angle A and angle 2 which is a congruent supplement and linear pair to angle 1. Assuming that all lines are the same degrees (180 or whatever), angle B and angle 2 are both half lines (90 degrees or whatever). So angle B and angle 2 have the same measure and are congruent, which should bring about our contradiction. Angle A is congruent to angle B, angle B is congruent to angle 2, angle 2 is congruent to angle 1, so angle A is congruent to angle 1, except that it isn't by definition. Might have to do a little cleaning up in the middle there if you move from congruence to numbers and back.






                                    share|cite|improve this answer























                                      up vote
                                      0
                                      down vote










                                      up vote
                                      0
                                      down vote









                                      By supplements do you mean they sum to 180 degrees or would form a line if they were adjacent? Have you considered a proof by contradiction? I love those! Then you could assume you have two right angles which are not congruent. Going that route we are given angle A is a right angle, angle 1 is a right angle, and angle A is not congruent to angle 1. Then there exists angle B which is a congruent supplement and linear pair to angle A and angle 2 which is a congruent supplement and linear pair to angle 1. Assuming that all lines are the same degrees (180 or whatever), angle B and angle 2 are both half lines (90 degrees or whatever). So angle B and angle 2 have the same measure and are congruent, which should bring about our contradiction. Angle A is congruent to angle B, angle B is congruent to angle 2, angle 2 is congruent to angle 1, so angle A is congruent to angle 1, except that it isn't by definition. Might have to do a little cleaning up in the middle there if you move from congruence to numbers and back.






                                      share|cite|improve this answer












                                      By supplements do you mean they sum to 180 degrees or would form a line if they were adjacent? Have you considered a proof by contradiction? I love those! Then you could assume you have two right angles which are not congruent. Going that route we are given angle A is a right angle, angle 1 is a right angle, and angle A is not congruent to angle 1. Then there exists angle B which is a congruent supplement and linear pair to angle A and angle 2 which is a congruent supplement and linear pair to angle 1. Assuming that all lines are the same degrees (180 or whatever), angle B and angle 2 are both half lines (90 degrees or whatever). So angle B and angle 2 have the same measure and are congruent, which should bring about our contradiction. Angle A is congruent to angle B, angle B is congruent to angle 2, angle 2 is congruent to angle 1, so angle A is congruent to angle 1, except that it isn't by definition. Might have to do a little cleaning up in the middle there if you move from congruence to numbers and back.







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                                      answered Oct 19 at 16:33









                                      Jason Makepeace Rancho HS

                                      1




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