This is another nice problem from the 2025 Math Calendar.
“The two squares in the diagram have areas 9 and 16 and form two of the sides of a triangle with area 3. What is the area x of the blue triangle?”
Again, the result must be a number of a day in a month.
See the Two Squares Puzzle for a solution.
This is another Catriona Agg puzzle that I also found somewhat challenging.
“Four squares. What’s the angle?”
Visio showed me the answer fairly soon, but it took a bit to figure out a proof.
See the Rotating Square Problem for a solution.
This is another take on the passing train type puzzle from the Moscow Puzzles.
“A train moving 45 miles per hour meets and is passed by a train moving 36 miles per hour. A passenger in the first train sees the second train take 6 seconds to pass him. How long is the second train?”
See Another Passing Train Puzzle for solutions.
I have been meaning to focus on this aspect of mathematics for some time. It is a topic I elaborated in my “Angular Momentum” post. But I also think it has something to do with the difficulties that normal folks have with elementary math, in particular, numbers. I thought I would dub it the Cheshire Cat Paradigm, involving the Cheshire Cat’s grin.
See the Cheshire Cat Paradigm.
(Update 6/7/2025) Contra Concrete Algebra
A recent posting has prompted me to address yet again my concerns about tying the learning of algebra so tightly to concrete objects and manipulations.
This is a lovely result from Futility Closet.
“Draw an arbitrary quadrilateral and divide each of its sides into three equal parts. Draw a line through adjacent points of trisection on either side of each vertex and you’ll have a parallelogram.
Discovered by Austrian engineer Ferdinand Wittenbauer.”
Find a proof.
See Wittenbauer’s Parallelogram for a solution.
This puzzle, from another set of seven challenges assembled by Presh Talwalkar, turned out to be very challenging for me.
“This is a fun problem I saw on Reddit AskMath. A circle contains two squares with sides of 4 and 2 cm that overlap at one point, as shown. What is the area of the circle?”
This took me quite a while to figure out, but I relied on another problem I had posted earlier.
See Two Squares in a Circle for solutions.
Here is a probability problem from BL’s Weekly Math Games. Normally I am not a fan of such problems, but this one seemed fairly straight-forward for a change.
“I hit the target 75% of the time. You hit the target 25% of the time. We aim at the same time, and only one bullet hits. What’s the probability it came from me?
Now as for this puzzle, it would be tempting to think that I am 3 times as good at hitting the target, but I am not!”
See Whose Bullet for a solution
This is another problem from A+Click.
“As each of five eggs is weighed, the average weight increases by one gram each time. If the first egg weighs 50 grams, what is the weight of the last egg?
Answer Choices: 55 grams 56 grams 57 grams 58 grams”
See Weighing Eggs for solutions.
I thought this puzzle, which was included among a set of seven challenges assembled by Presh Talwalkar, would be fairly straight-forward.
“A cube of 50 cm is filled halfway with water. A rectangular prism with a square base of 25 cm and a height around 50 cm is placed flat onto the base of the cube, as shown. By how much does the water level rise?
Thanks to Fahad Alomaim for the suggestion! This is translated from a Mawhiba curriculum question for 8th grade.”
But I got the wrong answer and found Talwalkar’s solution a bit hard to fathom at first. Looks like I flunked 8th grade.
See Brick in Water Puzzle for solutions.
This is another challenging sum from the 2024 Math Calendar.
“Find x where x = et and
”
As before, recall that all the answers are integer days of the month.
See Yet Another Sum for a solution.
