Quizzes & Puzzles57 mins ago
Any Brainiacs Out There? Math Question.
If I have a large box, and I am going to fill it with smaller boxes, is there any way to work out the best way to pack the smaller boxes so as to maximise the space in the larger box and find out how to fit the most amount of small boxes possible.
For reference the large box has internal dimensions of 40cm Height, 38cm Width and 58cm Length. The smaller boxes have external dimensions of 12cm Height, 12cm width and 16cm Length.
At the moment the best I can do is fit 39 of the smaller boxes into the larger box and still be able to close the lid.
But is there a formula out there that will allow me to safely squeeze in a couple more??
For reference the large box has internal dimensions of 40cm Height, 38cm Width and 58cm Length. The smaller boxes have external dimensions of 12cm Height, 12cm width and 16cm Length.
At the moment the best I can do is fit 39 of the smaller boxes into the larger box and still be able to close the lid.
But is there a formula out there that will allow me to safely squeeze in a couple more??
Answers
Best Answer
No best answer has yet been selected by flobadob. 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.The volume of the large box is 40cm × 38cm × 58cm which is 88,160 cubic centimetres.
The external volume of the smaller boxes is 12cm × 12cm × 16cm which is 2,304 cubic centimetres.
Dividing the smaller capacity into the larger capacity shows 38.26 boxes would fit.
Allowing for errors in measurement, it appears your figure of thirty-nine boxes is the most you can fit.
The external volume of the smaller boxes is 12cm × 12cm × 16cm which is 2,304 cubic centimetres.
Dividing the smaller capacity into the larger capacity shows 38.26 boxes would fit.
Allowing for errors in measurement, it appears your figure of thirty-nine boxes is the most you can fit.
//bobb...as TCL said..."allowing for errors in measurement"...that's why 39 fitted in presumably.//
I wernt thinking of tiny gaps...I were thinking of big gaps, like Toratoratora as since mentioned.
As a example if the length is 58cm the nearest you can get with these is 56cm (2@16cm + 2@24) so theres a unfilled gap of 2cm (x 38 wide).
And widthways the closest you can get then to 38cm is 3x12 =36 cm so thats another big gap.
I wernt thinking of tiny gaps...I were thinking of big gaps, like Toratoratora as since mentioned.
As a example if the length is 58cm the nearest you can get with these is 56cm (2@16cm + 2@24) so theres a unfilled gap of 2cm (x 38 wide).
And widthways the closest you can get then to 38cm is 3x12 =36 cm so thats another big gap.
This link just shows how difficult these can be
https:/ /en.wik ipedia. org/wik i/Bin_p acking_ problem
https:/
I'll explain my 32 anyway
The height of the large box is 40. Therefore, no matter which way you lay the boxes on top of each other, you are only going to get three layers. So best to use 16 + 12 + 12 = 40
For the layer of height 16, you can get 3 boxes (12 cms) wide and 4 boxes (12 cms)lengthwise. Therefore on this layer there are 4 * 3 = 12 boxes
In the other two layers where the height is 12 cms. You can
a) lay 3 * 16 length ways (48cm) by 3 boxes wide (36 cm) = 9 boxes
b) lay 2 boxes * 16 width ways and 4 lengthways = 8 boxes
c) Lay 2 boxes length ways (32 cms) by 3 boxes width ways (36 cm) = 6 boxes pLUS....
2 boxes 12 cm lengthways by 2 boxes 16 cm widthways = 4 boxes
For answer c add 6 and 4 =10 boxes on this layer, which is the best
Therefore answer = 12 layer 1, 10 layer 2, 10 layer 3 = 32
The height of the large box is 40. Therefore, no matter which way you lay the boxes on top of each other, you are only going to get three layers. So best to use 16 + 12 + 12 = 40
For the layer of height 16, you can get 3 boxes (12 cms) wide and 4 boxes (12 cms)lengthwise. Therefore on this layer there are 4 * 3 = 12 boxes
In the other two layers where the height is 12 cms. You can
a) lay 3 * 16 length ways (48cm) by 3 boxes wide (36 cm) = 9 boxes
b) lay 2 boxes * 16 width ways and 4 lengthways = 8 boxes
c) Lay 2 boxes length ways (32 cms) by 3 boxes width ways (36 cm) = 6 boxes pLUS....
2 boxes 12 cm lengthways by 2 boxes 16 cm widthways = 4 boxes
For answer c add 6 and 4 =10 boxes on this layer, which is the best
Therefore answer = 12 layer 1, 10 layer 2, 10 layer 3 = 32
thanks Bo Bo
I thought someone must have written an algorithm for this
( list of actions, poss repeated, which allows you to find the max capacity) and you have shown where
The difficulty dear reader is the same as the shortest distance issue ( finding the shortest dist in a network between A and B)
you see if you have three boxes A B and C - start with C then do B....but that gives no info on whether A is better to start with. So you have to go thro all combinations...
Big networks, big lulu to be had if you can write an efficient (P) algorithm.
BUT - - for the shortest distance algo - if you do a network in string ( no one does) and then pick up the two points. The shortest distance falls out in space. Cute huh?
I thought someone must have written an algorithm for this
( list of actions, poss repeated, which allows you to find the max capacity) and you have shown where
The difficulty dear reader is the same as the shortest distance issue ( finding the shortest dist in a network between A and B)
you see if you have three boxes A B and C - start with C then do B....but that gives no info on whether A is better to start with. So you have to go thro all combinations...
Big networks, big lulu to be had if you can write an efficient (P) algorithm.
BUT - - for the shortest distance algo - if you do a network in string ( no one does) and then pick up the two points. The shortest distance falls out in space. Cute huh?
Related Questions
Sorry, we can't find any related questions. Try using the search bar at the top of the page to search for some keywords, or choose a topic and submit your own question.