Hot Dog Package

A store sells hot dog buns 8 per package, sells hot dogs 10 per package, sells plastic plates 25 per package, and sells bags of potato chips 14 per package.  What is the smallest positive total number of these packages one can buy at this store so that the purchase includes equally many hot dog buns as hot dogs as plates as bags of potato chips, without buying any partial packages?
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Invest and Earning

Bob invests $100,000, earning 5% simple annual interest.  Upon adding the interest to the account after one year, he withdraws 2% of what is now in the account, investing the rest for another year at 5% simple interest.  After the account has this new year of interest added to it, he again withdraws 2% of what is now in the account, investing the rest for another year at 5% simple interest, and so on.  Rounded to the nearest dollar, how much is in the account after his 7th withdrawal?
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Perpendicular medians

Suppose the medians AA' and BB' of triangle ABC intersect at right angles.  If BC = 3 and AC = 4, what is the length of side AB?

Triangle ABC, with perpendicular medians AA' and BB'.
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Pascal's triangle

Show that any two elements (both greater than one) drawn from the same row of Pascal's triangle have greatest common divisor greater than one.  For example, the greatest common divisor of 28 and 70 is 14.

1
1      1
1      2      1
1      3       3       1
1       4       6        4        1
1       5       10        10        5        1
1         6       15       20       15       6       1
1          7         21         35        35       21       7         1


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Nonagon diagonals

In regular nonagon ABCDEFGHI, show that AF = AB + AC.

Regular nonagon ABCDEFGHI, showing diagonals AC and AF.
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Area of a trapezoid

A trapezoid¹ is divided into four triangles by its diagonals.  Let the triangles adjacent to the parallel sides have areas A and B.  Find the area of the trapezoid in terms of A and B.
Trapezoid, divided into four triangles by its diagonals
(1) A trapezoid is a quadrilateral with at least one pair of parallel sides.  In some countries, such a quadrilateral is known as a trapezium.
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set

Suppose that for every (including the empty set and the whole set) subset X of a finite set S there is a subset X* of S and suppose that if X is a subset of Y then X* is a subset of Y* . Show that there is a subset A of S satisfying A * = A.
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Three children

On the first day of a new job, a colleague invites you around for a barbecue.  As the two of you arrive at his home, a young boy throws open the door to welcome his father.  “My other two kids will be home soon!” remarks your colleague.
Waiting in the kitchen while your colleague gets some drinks from the basement, you notice a letter from the principal of the local school tacked to the noticeboard.  “Dear Parents,” it begins, “This is the time of year when I write to all parents, such as yourselves, who have a girl or girls in the school, asking you to volunteer your time to help the girls' soccer team.”  “Hmmm,” you think to yourself, “clearly they have at least one of each!”
This, of course, leaves two possibilities: two boys and a girl, or two girls and a boy.  Are these two possibilities equally likely, or is one more likely than the other?
Note:  This is not a trick puzzle.  You should assume all things that it seems you're meant to assume, and not assume things that you aren't told to assume.  If things can easily be imagined in either of two ways, you should assume that they are equally likely.  For example, you may be able to imagine a reason that a colleague with two boys and a girl would be more likely to have invited you to dinner than one with two girls and a boy.  If so, this would affect the probabilities of the two possibilities.  But if your imagination is that good, you can probably imagine the opposite as well.  You should assume that any such extra information not mentioned in the story is not available.
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Two ladders in an alley

Two ladders are placed cross-wise in an alley to form a lopsided X-shape.  The walls of the alley are not quite vertical, but are parallel to each other.  The ground is flat and horizontal.  The bottom of each ladder is placed against the opposite wall.  The top of the longer ladder touches the alley wall 5 feet vertically higher than the top of the shorter ladder touches the opposite wall, which in turn is 4 feet vertically higher than the intersection of the two ladders.  How high vertically above the ground is that intersection?

An alley, with two sloping, but parallel, walls. The ladders are placed cross-wise.
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Five men, a monkey, and some coconuts

Five men crash-land their airplane on a deserted island in the South Pacific.  On their first day they gather as many coconuts as they can find into one big pile.  They decide that, since it is getting dark, they will wait until the next day to divide the coconuts.
That night each man took a turn watching for rescue searchers while the others slept.  The first watcher got bored so he decided to divide the coconuts into five equal piles.  When he did this, he found he had one remaining coconut.  He gave this coconut to a monkey, took one of the piles, and hid it for himself.  Then he jumbled up the four other piles into one big pile again.
To cut a long story short, each of the five men ended up doing exactly the same thing.  They each divided the coconuts into five equal piles and had one extra coconut left over, which they gave to the monkey.  They each took one of the five piles and hid those coconuts.  They each came back and jumbled up the remaining four piles into one big pile.
What is the smallest number of coconuts there could have been in the original pile?
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PROBLEM OF THE WEEK

Two discs of radius one and a disc of radius one half are drawn on a plane so that each of them is touching the other two at one point–think of two quarters and a penny all flat on a table and all touching at their edges. Find the radius of the largest circle which is tangent to all three of the circles which are the edges of the discs.
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TRIANGULAR AREA

Triangle ABC, with cevians BD and CE, meeting at X.
In ΔABC, produce a line from B to AC, meeting at D, and from C to AB, meeting at E.  Let BD and CE meet at X.
Let 
ΔBXE have area a, ΔBXC have area b, and ΔCXD have area c.  Find the area of quadrilateral AEXD in terms of a, b, and c.
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