Quizzes & Puzzles2 mins ago
Easy Maff Question
21 Answers
ABCD is a trapesium with AB parallel to DC - the diagnonals meet at X - prove DXC and BXA are similar traingles and that
area of DXC = DC2
---------------- ------
araa of AXB AB2
Answer - the similar traingles is easy - Z angles - F angles and corresponding angles
so there fore sinilar
you can say that DC /AB is a ratio let us say 'r' - but how do you show that the altitudes which you need for area are also in the ration 'r' ? - and then the areas are in the ratio r squared which is also DC/AB squared.... ergo - or do you just say - "they are"
The only thing I could manage was
imagine two similar triangles with side ratio 'r' but the altitude NOT r -
and let r approach one - the triangles are now congruent but their areas are not equal .....
which is impossible therefore the ratio of altitudes must also be 'r'
is there a simpler way?
(engtrance exam to secondary school)
area of DXC = DC2
---------------- ------
araa of AXB AB2
Answer - the similar traingles is easy - Z angles - F angles and corresponding angles
so there fore sinilar
you can say that DC /AB is a ratio let us say 'r' - but how do you show that the altitudes which you need for area are also in the ration 'r' ? - and then the areas are in the ratio r squared which is also DC/AB squared.... ergo - or do you just say - "they are"
The only thing I could manage was
imagine two similar triangles with side ratio 'r' but the altitude NOT r -
and let r approach one - the triangles are now congruent but their areas are not equal .....
which is impossible therefore the ratio of altitudes must also be 'r'
is there a simpler way?
(engtrance exam to secondary school)
Answers
Best Answer
No best answer has yet been selected by Peter Pedant. Once a best answer has been selected, it will be shown here.
For more on marking an answer as the "Best Answer", please visit our FAQ.Thanks for clearing up the question by the way, for a while I was going berserk thinking that it was a funny triangle that was equal to a square it definitely fits into comfortably...
Agree that proving similarity is two uses of corresponding and one use of opposite angles. So, leaving that to one side...
Isn't it enough to say that, by definition, each side in a similar triangle is in the same ratio to the corresponding side of the original triangle? Therefore the height *must* be in the ratio "r" between both triangles, and the result follows.
In other words, I agree with bhg -- think you're overthinking this. Definition of "similar" saves you.
Agree that proving similarity is two uses of corresponding and one use of opposite angles. So, leaving that to one side...
Isn't it enough to say that, by definition, each side in a similar triangle is in the same ratio to the corresponding side of the original triangle? Therefore the height *must* be in the ratio "r" between both triangles, and the result follows.
In other words, I agree with bhg -- think you're overthinking this. Definition of "similar" saves you.
many thanks
yes I am not the one taking the exam
oh by the way -
one exam for a secondary school had 27 maff questions to do in 90 mins. Are these exams expected to be completable - or is it do as many as you can
[yes I know every other exam in finishable and it is 'bad training']
thanks for your replies ....
yes I am not the one taking the exam
oh by the way -
one exam for a secondary school had 27 maff questions to do in 90 mins. Are these exams expected to be completable - or is it do as many as you can
[yes I know every other exam in finishable and it is 'bad training']
thanks for your replies ....
we did similar triangles in IVa ( nine years )
but nothing like this
just the angles bit and lengths not the same
not even ratios
I was surprised to see a whole question on similar triangles and not a congruent one in sight ( on which we spent weeks)
another one was ABC+ABC+ABC = BBB
find a number that fits
and can you find a number 9 x ABCD = DCBA ?
two of the 27 - I thought it was impossible that kids cd do this in 2 1/2 mins.....
but nothing like this
just the angles bit and lengths not the same
not even ratios
I was surprised to see a whole question on similar triangles and not a congruent one in sight ( on which we spent weeks)
another one was ABC+ABC+ABC = BBB
find a number that fits
and can you find a number 9 x ABCD = DCBA ?
two of the 27 - I thought it was impossible that kids cd do this in 2 1/2 mins.....
I meant alternate, of course :P
Definition of similar: all sides (and so all length measurements) increase by the same scale factor r. Hence area grows as r^2. as r = AB/CD (or vice versa), then r^2 is the required value. I am sure this can be simplified a little in the language for ten-year-olds, but it seems to me that if they are asking at all then the idea of scale factor must be the thing they're relying on. Everything else is overkill.
Definition of similar: all sides (and so all length measurements) increase by the same scale factor r. Hence area grows as r^2. as r = AB/CD (or vice versa), then r^2 is the required value. I am sure this can be simplified a little in the language for ten-year-olds, but it seems to me that if they are asking at all then the idea of scale factor must be the thing they're relying on. Everything else is overkill.
For the ABC + ABC + ABC one, clearly BBB is one of 111, 222 etc. Must be bigger than 333 since, when you divide by three, you get a three-digit number all of which digits are different, and the middle of which is the digit in the original number. I think from here it's enough to do trial-and-error on 333 - 999:
333/3 = 111 FALSE.
444/3 = 148 Works (probably could stop here, but worth checking that there is only one unique answer).
555/3 = 185 FALSE.
666/3 = 222 FALSE.
777/3 = 259 FALSE.
888/3 = 296 FALSE.
999/3 = 333 FALSE.
* * * * * *
9 *ABCD = DCBA. Use that sum of the four distinct digits is a multiple of 9 if the actual number is, and A has to be 1 (else 9* ABCD would be a five-digit number). Hence also D = 9, so B+C = 8. Actually 9*1111 = 9999 so that anything bigger than this won't do. Hence B = 0 and C = 8, and so ABCD = 1089.
I mean, I expect you knew how to do these, but I think they are doable for particularly keen and bright ten-year-olds, and I assume that has to be the point of the test.
333/3 = 111 FALSE.
444/3 = 148 Works (probably could stop here, but worth checking that there is only one unique answer).
555/3 = 185 FALSE.
666/3 = 222 FALSE.
777/3 = 259 FALSE.
888/3 = 296 FALSE.
999/3 = 333 FALSE.
* * * * * *
9 *ABCD = DCBA. Use that sum of the four distinct digits is a multiple of 9 if the actual number is, and A has to be 1 (else 9* ABCD would be a five-digit number). Hence also D = 9, so B+C = 8. Actually 9*1111 = 9999 so that anything bigger than this won't do. Hence B = 0 and C = 8, and so ABCD = 1089.
I mean, I expect you knew how to do these, but I think they are doable for particularly keen and bright ten-year-olds, and I assume that has to be the point of the test.
thx Jim - I had got 148 and 1089
I had tried ABCD has to be less than 1111 and got pained look from the boy wonder in question, and that it had to be 1 and 9 and the referee ( grandmother) then stopped play.
and thanks magz
maff students ( of which I am not one) can do three years at uni and not write a sentence in English - but that of course is another debate.
I suppose it is a good job magz you do english and not maff, pip pip!
I had tried ABCD has to be less than 1111 and got pained look from the boy wonder in question, and that it had to be 1 and 9 and the referee ( grandmother) then stopped play.
and thanks magz
maff students ( of which I am not one) can do three years at uni and not write a sentence in English - but that of course is another debate.
I suppose it is a good job magz you do english and not maff, pip pip!
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