Challenge Questions

This month's Challenge Question:

The three apple farmers (Mike, Juliet, and Bob) finished their harvest and reported yields of 314,827 apples, 1,199,533 apples, and 683,786 apples, respectively. Mike mentioned the number of apples he'd have left over if he divided his harvest equally among all the apple dealers in the area. Juliet indicated she would have bought the extra apples so she could divide her supply equally among the dealers, with Bob indicating the same thing. How many apple dealers are there?

The Answer will be posted right here on CR4 on December 2nd. Can't wait that long? Well, check out these weekly challenges from CR4:

Chain Links: CR4 Challenge (10/27/09)

Daughters and Sons: CR4 Challenge (10/20/09)

Chain and Pendant: CR4 Challenge (10/13/09)

This week's Challenge Question:

A customer goes into a jewelers shop and lays 8 chain segments on the counter. The segments are 30, 20, 17, 13, 9, 6, 3, 2 links long long, and each link is 1cm. The customer asks that they be assembled into a continuous chain 100 links long, by cutting and re-joining links as necessary. If it takes 1 minute to cut and open a link, and 2 minutes to weld it closed (ignore the time taken to pick-up, thread or set down the link), what is the least time in which the jeweler can complete the task?

Thanks to SlideRuler for providing us with this Challenge.

And the Answer is...

There are 8 sections. If he simply opened the end link of a section and attaches it to another section, he would have to do this 7 times to make a continuous length taking 21 minutes. If he cuts the 6 link section into separate links, he will have enough cut links to join the 7 remaining sections, taking 18 min. He can do even better, by cutting the 3 and 2 link sections into separate links, and use the 5 cut links to join the 6 remaining sections. Time taken in this case is 15 min.

This week's Challenge Question:

You have three colleagues: Arthur, Bill and Charlie. Each has two (and only two) children. Bill mentioned that today is his daughter's birthday and Charlie brought his daughter to work.

Assuming 50:50 male:female distribution and no further information about your colleagues or their families, what are the probabilities that each has a son?

Thanks to ExPat for providing us with this Challenge.

And the Answer is....

Arthur: 3/4

Bill: 2/3

Charlie: 1/2

Most won't have difficulty with Arthur and Charlie; Bill's case is less intuitive, at least until the problem is broken down.

Explanation:

Designate the two children and Child A and Child B. Each child can be a boy or a girl (B or G). For Arthur, there are four permutations, each with equal probability; three include at least one boy, so the probability that Arthur has a son is 3/4. Child A Child B Has Son?

For Bill, we know that B-B is not an available solution, leaving three permutations, each with equal probability; two include a boy, so the probability that Bill has a son is 2/3. Child A Child B Has Son?

For Charlie, we have already met one child (let's designate her Child A), so solutions B-B and B-G are unavailable, leaving two permutations, each with equal probability; one includes a boy, so the probability that Charlie has a son is 1/2. Child A Child B Has Son?

(We could of course designate the known daughter as Child B, resulting in the same probabilities.)

This week's Challenge Question:

A customer takes a 100-link chain to her jeweler. Each link is 1 cm long. She requests to attach a pendant, with a weight equivalent to 21 links of chain, to one end of the 100 cm chain. The jeweler does this, and tries to display it to the customer by laying it on a felt covered table, with the pendant hanging over the table edge, and with the 100 link chain fully extended at a right-angle to the table edge. As the jeweler releases the pendant and chain, the pendant weight overcomes the friction between the chain and the felt covered table (coefficient of friction μ= 0.2) and the pendant starts to fall, pulling the chain off the table. How long will it be before the end link falls off the table?

Assume the table is so high that the pendant would not touch the floor before the entire chain left the table

Ignore any chain extension or compression, and assume complete flexibility at the table edge (i.e. A weight of W acting on the vertical portion of the chain induces a lateral force W on the horizontal portion).

Thanks to SlideRuler for providing us with this Challenge.

And the Answer is....

This month's Challenge Question:

Two friends were discussing the polar ice. One of them asked why the Antarctica pole has much more ice than the Arctic pole. Her friend thought about this question for a little while and said, "This should be obvious to you; you are a farmer."

The Answer will be posted right here on CR4 on November 2nd. Can't wait that long? Well, check out these weekly challenges from CR4:

Square with area of circle: CR4 Challenge (09/29/09)

Unusual Area: CR4 Challenge (09/22/09)

Interesting Number: CR4 Challenge (09/08/09)

Triangle With Rectangle Insert: CR4 Challenge (08/25/09)