What's the radius?
I have a book of puzzles from 1972 with the pretentious title, "Games for the Superintelligent" by James Fixx. One puzzle had me thinking for a couple of days:
I drew it out, thought about different ways of attacking it, and eventually gave up and looked up the answer in the back of the book.
See if you can do better than me and figure out the answer on your own!
geometry
New contributor
add a comment |
I have a book of puzzles from 1972 with the pretentious title, "Games for the Superintelligent" by James Fixx. One puzzle had me thinking for a couple of days:
I drew it out, thought about different ways of attacking it, and eventually gave up and looked up the answer in the back of the book.
See if you can do better than me and figure out the answer on your own!
geometry
New contributor
Welcome to Puzzling :D
– ABcDexter
Dec 23 at 20:50
1
I feel like this should go on Math.SE. It's just elementary math, rather than a "puzzle".
– Hugh
Dec 23 at 21:24
2
Fun trivia*: Richard Feynman was stumped by a similar problem! (*source: It's a bit of telephone game, as the source is Walter Bender’s webpage which shares a story told by Oliver Selfridge: web.media.mit.edu/~walter/MAS-A12/week11.html)
– Presh
Dec 24 at 9:19
1
This was a lot of fun. I sat down with my wife for ten minutes trying to crack this. We ended up trying to rewrite things in terms of the usual polar coordinates and facepalmed when the answer spilled out.
– user1717828
Dec 24 at 18:04
That was a great puzzle! (Are the other puzzles in the book just as fun? I am going to look for it)
– BruceWayne
Dec 24 at 23:31
add a comment |
I have a book of puzzles from 1972 with the pretentious title, "Games for the Superintelligent" by James Fixx. One puzzle had me thinking for a couple of days:
I drew it out, thought about different ways of attacking it, and eventually gave up and looked up the answer in the back of the book.
See if you can do better than me and figure out the answer on your own!
geometry
New contributor
I have a book of puzzles from 1972 with the pretentious title, "Games for the Superintelligent" by James Fixx. One puzzle had me thinking for a couple of days:
I drew it out, thought about different ways of attacking it, and eventually gave up and looked up the answer in the back of the book.
See if you can do better than me and figure out the answer on your own!
geometry
geometry
New contributor
New contributor
edited Dec 23 at 20:57
ABcDexter
5,00133173
5,00133173
New contributor
asked Dec 23 at 19:31
WhiteHotLoveTiger
1815
1815
New contributor
New contributor
Welcome to Puzzling :D
– ABcDexter
Dec 23 at 20:50
1
I feel like this should go on Math.SE. It's just elementary math, rather than a "puzzle".
– Hugh
Dec 23 at 21:24
2
Fun trivia*: Richard Feynman was stumped by a similar problem! (*source: It's a bit of telephone game, as the source is Walter Bender’s webpage which shares a story told by Oliver Selfridge: web.media.mit.edu/~walter/MAS-A12/week11.html)
– Presh
Dec 24 at 9:19
1
This was a lot of fun. I sat down with my wife for ten minutes trying to crack this. We ended up trying to rewrite things in terms of the usual polar coordinates and facepalmed when the answer spilled out.
– user1717828
Dec 24 at 18:04
That was a great puzzle! (Are the other puzzles in the book just as fun? I am going to look for it)
– BruceWayne
Dec 24 at 23:31
add a comment |
Welcome to Puzzling :D
– ABcDexter
Dec 23 at 20:50
1
I feel like this should go on Math.SE. It's just elementary math, rather than a "puzzle".
– Hugh
Dec 23 at 21:24
2
Fun trivia*: Richard Feynman was stumped by a similar problem! (*source: It's a bit of telephone game, as the source is Walter Bender’s webpage which shares a story told by Oliver Selfridge: web.media.mit.edu/~walter/MAS-A12/week11.html)
– Presh
Dec 24 at 9:19
1
This was a lot of fun. I sat down with my wife for ten minutes trying to crack this. We ended up trying to rewrite things in terms of the usual polar coordinates and facepalmed when the answer spilled out.
– user1717828
Dec 24 at 18:04
That was a great puzzle! (Are the other puzzles in the book just as fun? I am going to look for it)
– BruceWayne
Dec 24 at 23:31
Welcome to Puzzling :D
– ABcDexter
Dec 23 at 20:50
Welcome to Puzzling :D
– ABcDexter
Dec 23 at 20:50
1
1
I feel like this should go on Math.SE. It's just elementary math, rather than a "puzzle".
– Hugh
Dec 23 at 21:24
I feel like this should go on Math.SE. It's just elementary math, rather than a "puzzle".
– Hugh
Dec 23 at 21:24
2
2
Fun trivia*: Richard Feynman was stumped by a similar problem! (*source: It's a bit of telephone game, as the source is Walter Bender’s webpage which shares a story told by Oliver Selfridge: web.media.mit.edu/~walter/MAS-A12/week11.html)
– Presh
Dec 24 at 9:19
Fun trivia*: Richard Feynman was stumped by a similar problem! (*source: It's a bit of telephone game, as the source is Walter Bender’s webpage which shares a story told by Oliver Selfridge: web.media.mit.edu/~walter/MAS-A12/week11.html)
– Presh
Dec 24 at 9:19
1
1
This was a lot of fun. I sat down with my wife for ten minutes trying to crack this. We ended up trying to rewrite things in terms of the usual polar coordinates and facepalmed when the answer spilled out.
– user1717828
Dec 24 at 18:04
This was a lot of fun. I sat down with my wife for ten minutes trying to crack this. We ended up trying to rewrite things in terms of the usual polar coordinates and facepalmed when the answer spilled out.
– user1717828
Dec 24 at 18:04
That was a great puzzle! (Are the other puzzles in the book just as fun? I am going to look for it)
– BruceWayne
Dec 24 at 23:31
That was a great puzzle! (Are the other puzzles in the book just as fun? I am going to look for it)
– BruceWayne
Dec 24 at 23:31
add a comment |
4 Answers
4
active
oldest
votes
Is it:
8 inches. Because the other diagonal of the same rectangle is also $8^"$, which coincidentally, is also the radius of the circle.
2
"the rectangle with the 8′′ marked other diagonal is the radius", so basically "the rectangle ... is the radius"? That seem ungrammatical to me.
– hkBst
Dec 25 at 9:50
add a comment |
Lol! If you're using Pythagorus you're doing it wrong :-)
8" Draw a diagonal line between the other 2 corners of the rectangle. You'll immediately see the answer and then you'll be kicking yourself!
New contributor
add a comment |
So,
A right-angled square rests plumb atop the diameter of a circle. The distance from the square edge to the circle’s edge is 3”, so then the radius of the circle would be the 5” of the square arm, which is at right angles at two arms spread from opposite the hypotenuse in a meeting of two mirrored triangles; added to the 3” of extension to the circle’s edge -resulting in a radius measurement of a combined(square arm+extension to circle edge) 8”.
I solved this visually first, but then challenged myself to articulate. I still feel rocky about the explanation and should have drawn it out to clarify as I have been taught instinctual to “show my work.”
New contributor
add a comment |
Radius.......
From the word we can understood that it means that half of any object...
But your subject is geometry so:
If we consider a circle it is the half of the diameter of the circle...
So, according to your question...
Your answer is 8 inches. Because the rectangle with the 8′′ marked other diagonal is the radius, and this is also 8′′ long
New contributor
2
The first three fourths of your question is just regurgitating definitions (and not even the correct one, at first: I'm not aware of any definition of "radius" being "half of any object), and the rest is just repeating what other answers have said.
– Acccumulation
Dec 24 at 16:10
add a comment |
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4 Answers
4
active
oldest
votes
4 Answers
4
active
oldest
votes
active
oldest
votes
active
oldest
votes
Is it:
8 inches. Because the other diagonal of the same rectangle is also $8^"$, which coincidentally, is also the radius of the circle.
2
"the rectangle with the 8′′ marked other diagonal is the radius", so basically "the rectangle ... is the radius"? That seem ungrammatical to me.
– hkBst
Dec 25 at 9:50
add a comment |
Is it:
8 inches. Because the other diagonal of the same rectangle is also $8^"$, which coincidentally, is also the radius of the circle.
2
"the rectangle with the 8′′ marked other diagonal is the radius", so basically "the rectangle ... is the radius"? That seem ungrammatical to me.
– hkBst
Dec 25 at 9:50
add a comment |
Is it:
8 inches. Because the other diagonal of the same rectangle is also $8^"$, which coincidentally, is also the radius of the circle.
Is it:
8 inches. Because the other diagonal of the same rectangle is also $8^"$, which coincidentally, is also the radius of the circle.
edited 2 days ago
Benjamin Lee
33
33
answered Dec 23 at 19:43
JonMark Perry
17.4k63483
17.4k63483
2
"the rectangle with the 8′′ marked other diagonal is the radius", so basically "the rectangle ... is the radius"? That seem ungrammatical to me.
– hkBst
Dec 25 at 9:50
add a comment |
2
"the rectangle with the 8′′ marked other diagonal is the radius", so basically "the rectangle ... is the radius"? That seem ungrammatical to me.
– hkBst
Dec 25 at 9:50
2
2
"the rectangle with the 8′′ marked other diagonal is the radius", so basically "the rectangle ... is the radius"? That seem ungrammatical to me.
– hkBst
Dec 25 at 9:50
"the rectangle with the 8′′ marked other diagonal is the radius", so basically "the rectangle ... is the radius"? That seem ungrammatical to me.
– hkBst
Dec 25 at 9:50
add a comment |
Lol! If you're using Pythagorus you're doing it wrong :-)
8" Draw a diagonal line between the other 2 corners of the rectangle. You'll immediately see the answer and then you'll be kicking yourself!
New contributor
add a comment |
Lol! If you're using Pythagorus you're doing it wrong :-)
8" Draw a diagonal line between the other 2 corners of the rectangle. You'll immediately see the answer and then you'll be kicking yourself!
New contributor
add a comment |
Lol! If you're using Pythagorus you're doing it wrong :-)
8" Draw a diagonal line between the other 2 corners of the rectangle. You'll immediately see the answer and then you'll be kicking yourself!
New contributor
Lol! If you're using Pythagorus you're doing it wrong :-)
8" Draw a diagonal line between the other 2 corners of the rectangle. You'll immediately see the answer and then you'll be kicking yourself!
New contributor
New contributor
answered Dec 24 at 10:25
Gazzer
1411
1411
New contributor
New contributor
add a comment |
add a comment |
So,
A right-angled square rests plumb atop the diameter of a circle. The distance from the square edge to the circle’s edge is 3”, so then the radius of the circle would be the 5” of the square arm, which is at right angles at two arms spread from opposite the hypotenuse in a meeting of two mirrored triangles; added to the 3” of extension to the circle’s edge -resulting in a radius measurement of a combined(square arm+extension to circle edge) 8”.
I solved this visually first, but then challenged myself to articulate. I still feel rocky about the explanation and should have drawn it out to clarify as I have been taught instinctual to “show my work.”
New contributor
add a comment |
So,
A right-angled square rests plumb atop the diameter of a circle. The distance from the square edge to the circle’s edge is 3”, so then the radius of the circle would be the 5” of the square arm, which is at right angles at two arms spread from opposite the hypotenuse in a meeting of two mirrored triangles; added to the 3” of extension to the circle’s edge -resulting in a radius measurement of a combined(square arm+extension to circle edge) 8”.
I solved this visually first, but then challenged myself to articulate. I still feel rocky about the explanation and should have drawn it out to clarify as I have been taught instinctual to “show my work.”
New contributor
add a comment |
So,
A right-angled square rests plumb atop the diameter of a circle. The distance from the square edge to the circle’s edge is 3”, so then the radius of the circle would be the 5” of the square arm, which is at right angles at two arms spread from opposite the hypotenuse in a meeting of two mirrored triangles; added to the 3” of extension to the circle’s edge -resulting in a radius measurement of a combined(square arm+extension to circle edge) 8”.
I solved this visually first, but then challenged myself to articulate. I still feel rocky about the explanation and should have drawn it out to clarify as I have been taught instinctual to “show my work.”
New contributor
So,
A right-angled square rests plumb atop the diameter of a circle. The distance from the square edge to the circle’s edge is 3”, so then the radius of the circle would be the 5” of the square arm, which is at right angles at two arms spread from opposite the hypotenuse in a meeting of two mirrored triangles; added to the 3” of extension to the circle’s edge -resulting in a radius measurement of a combined(square arm+extension to circle edge) 8”.
I solved this visually first, but then challenged myself to articulate. I still feel rocky about the explanation and should have drawn it out to clarify as I have been taught instinctual to “show my work.”
New contributor
New contributor
answered 22 hours ago
Adam Borchardt
1
1
New contributor
New contributor
add a comment |
add a comment |
Radius.......
From the word we can understood that it means that half of any object...
But your subject is geometry so:
If we consider a circle it is the half of the diameter of the circle...
So, according to your question...
Your answer is 8 inches. Because the rectangle with the 8′′ marked other diagonal is the radius, and this is also 8′′ long
New contributor
2
The first three fourths of your question is just regurgitating definitions (and not even the correct one, at first: I'm not aware of any definition of "radius" being "half of any object), and the rest is just repeating what other answers have said.
– Acccumulation
Dec 24 at 16:10
add a comment |
Radius.......
From the word we can understood that it means that half of any object...
But your subject is geometry so:
If we consider a circle it is the half of the diameter of the circle...
So, according to your question...
Your answer is 8 inches. Because the rectangle with the 8′′ marked other diagonal is the radius, and this is also 8′′ long
New contributor
2
The first three fourths of your question is just regurgitating definitions (and not even the correct one, at first: I'm not aware of any definition of "radius" being "half of any object), and the rest is just repeating what other answers have said.
– Acccumulation
Dec 24 at 16:10
add a comment |
Radius.......
From the word we can understood that it means that half of any object...
But your subject is geometry so:
If we consider a circle it is the half of the diameter of the circle...
So, according to your question...
Your answer is 8 inches. Because the rectangle with the 8′′ marked other diagonal is the radius, and this is also 8′′ long
New contributor
Radius.......
From the word we can understood that it means that half of any object...
But your subject is geometry so:
If we consider a circle it is the half of the diameter of the circle...
So, according to your question...
Your answer is 8 inches. Because the rectangle with the 8′′ marked other diagonal is the radius, and this is also 8′′ long
New contributor
edited Dec 24 at 17:51
Ahmed Ashour
948212
948212
New contributor
answered Dec 24 at 14:08
arka
1
1
New contributor
New contributor
2
The first three fourths of your question is just regurgitating definitions (and not even the correct one, at first: I'm not aware of any definition of "radius" being "half of any object), and the rest is just repeating what other answers have said.
– Acccumulation
Dec 24 at 16:10
add a comment |
2
The first three fourths of your question is just regurgitating definitions (and not even the correct one, at first: I'm not aware of any definition of "radius" being "half of any object), and the rest is just repeating what other answers have said.
– Acccumulation
Dec 24 at 16:10
2
2
The first three fourths of your question is just regurgitating definitions (and not even the correct one, at first: I'm not aware of any definition of "radius" being "half of any object), and the rest is just repeating what other answers have said.
– Acccumulation
Dec 24 at 16:10
The first three fourths of your question is just regurgitating definitions (and not even the correct one, at first: I'm not aware of any definition of "radius" being "half of any object), and the rest is just repeating what other answers have said.
– Acccumulation
Dec 24 at 16:10
add a comment |
WhiteHotLoveTiger is a new contributor. Be nice, and check out our Code of Conduct.
WhiteHotLoveTiger is a new contributor. Be nice, and check out our Code of Conduct.
WhiteHotLoveTiger is a new contributor. Be nice, and check out our Code of Conduct.
WhiteHotLoveTiger is a new contributor. Be nice, and check out our Code of Conduct.
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Welcome to Puzzling :D
– ABcDexter
Dec 23 at 20:50
1
I feel like this should go on Math.SE. It's just elementary math, rather than a "puzzle".
– Hugh
Dec 23 at 21:24
2
Fun trivia*: Richard Feynman was stumped by a similar problem! (*source: It's a bit of telephone game, as the source is Walter Bender’s webpage which shares a story told by Oliver Selfridge: web.media.mit.edu/~walter/MAS-A12/week11.html)
– Presh
Dec 24 at 9:19
1
This was a lot of fun. I sat down with my wife for ten minutes trying to crack this. We ended up trying to rewrite things in terms of the usual polar coordinates and facepalmed when the answer spilled out.
– user1717828
Dec 24 at 18:04
That was a great puzzle! (Are the other puzzles in the book just as fun? I am going to look for it)
– BruceWayne
Dec 24 at 23:31