There is much I dislike about Facebook. One of the more annoying things was people posting math problems that were (in my opinion) just written poorly so people start fighting about order of operations. People really REALLY like to fight about it
So for a time I posted some other math challenges for my friends that weren't just annoying nonsense. I came across one today I had forgotten about.
I have a strong feeling that today's mscroggs.co.uk Advent problem has a bug
Or am I missing something?
(Double-checked with my son and he too feels there's at least one typo).
EDIT: No error, we unconsciously set an arbitrary restriction on the digit position that made it impossible.
Return an `l`-length sequence of nonnegative integers such that any `n`-length-or-shorter combination of members with repeats allowed can be uniquely identified by its sum.
The optimal solution is the one with the lowest maximum-member.
(If that were "product" instead of "sum", the obvious solution would be the first `l` primes.)
Ich fasse nochmal zusammen:
- die maximal mögliche Anzahl an Kombinationen
- 3x3 grid auf Android
- mindestens 4 Zahlen
- nur gerade Linien
- keine Sprünge, Kombinationen wie 1zu3 sind ungültig, da sie automatisch zu 1-2-3 würden
- eine Zahl darf zweimal besucht werden, wird beim zweiten Mal aber nicht mehr mitgezählt, zB 1-5-9-8-7-(5)-3
- schräg ist erlaubt, zB 1zu6
Frage:
Ist die im Internet kolportierte Zahl von 389.112 möglichen Entsperrmustern korrekt?
UNIVERSITY PARK, Pa. — A Penn State engineering student refined a century-old math problem into a simpler, more elegant form, making it easier to use and explore. Divya Tyagi’s work expands research in aerodynamics, unlocking new possibilities in wind turbine design that Hermann Glauert, a British aerodynamicist and the original author, did not consider. Tyagi, a graduate student pursuing her master’s degree in aerospace engineering, completed this work as a Penn State undergraduate for her Schreyer Honors College thesis. Her research was published in Wind Energy Science . “I created an addendum to Glauert’s problem which determines the optimal aerodynamic performance of a wind turbine by solving for the ideal flow conditions for a turbine in order to maximize its power output,” said Tyagi, who earned her bachelor’s degree in aerospace engineering. Her adviser, Sven Schmitz , the Boeing/A.D. Welliver Professor in the Department of Aerospace Engineering and co-author on the paper, said Glauert’s original work focused exclusively on the maximum attainable power coefficient, which measures how efficiently a turbine converts wind energy into electricity. However, Glauert did not account for the total force and moment coefficients acting on the rotor — the spinning unit with attached blades — or how turbine blades bend under wind pressure. “If you have your arms spread out and someone presses on your palm, you have to resist that movement,” said Schmitz, a faculty member in the Institute of Energy and the Environment . “We call that the downwind thrust force and the root bending moment, and wind turbines must withstand that, too. You need to understand how large the total load is, which Glauert did not do.” Schmitz said the simplicity of Tyagi’s addendum based on calculus of variations, a mathematical method used for constrained optimization problems, will allow people to explore new facets of wind turbine design. “The real impact will be on the next generation of wind turbines using the new knowledge that has been unveiled,” Schmitz said. “As for Divya’s elegant solution, I think it will find its way into the classrooms, across the country and around the world.” Tyagi said she sees her work as a step toward improving wind energy production and reducing costs. “Improving the power coefficient of a large wind turbine by just 1% has significant impacts on the energy production of a turbine, and that translates towards the other coefficients that we derived relations for,” she said. "A 1% improvement in power coefficient could notably increase a turbine’s energy output, potentially powering an entire neighborhood." During her senior year, Tyagi won the Anthony E. Wolk Award for her thesis on the addendum to Glauert’s work. The Wolk Award is presented to a senior in aerospace engineering who has developed the best thesis among aerospace engineering students. Now pursuing her master’s degree, Tyagi is studying computational fluid dynamics simulations, analyzing airflow around a helicopter rotor. “The goal is to integrate that with the complex flow around a ship to see how the ship airwake interacts with a helicopter trying to land on its deck,” she said. Her U.S. Navy-supported research aims to improve flight simulation and pilot safety by better understanding these dynamic interactions. Reflecting on her undergraduate research, Tyagi said proving her solution on paper was challenging. “I would spend about 10 to 15 hours a week between the problem, writing the thesis and on research. It took a long time because it was so math intensive,” she said. “But I feel really proud now, seeing all the work I’ve done.” Schmitz, who has contemplated Glauert’s problem for decades, credited Tyagi’s persistence in tackling it. “When I thought about the Glauert problem, I thought steps were missing and it was very complicated,” Schmitz said. “There had to be an easier way to do it. That’s when Divya came in. She was the fourth student I challenged with looking at it, and she was the only one who took it on. Her work is truly impressive.”
At least it was easier to calculate than the last math exam I had in college. Given a parabula ax^2 up to a height h, rotate it around the y axis to make a vase, fill it to half its volume, to what angle can you tilt this vase before the water spills (disregard physical effects)
Question: Is the following statement true (or under which conditions is it true):
\[ \lim_{n \to \infty} f_n(x) = f(x) \implies \lim_{n \to \infty} f_n(g(n)) = \lim_{n \to \infty} f(g(n)) \]
My poor #cpu.
I've spent the #morning on #coding and #implementing a #math problem that tries to find #candidates that break #collatzconjecture ... If you are thinking about this problem, go and touch grass and do something way more #productive with your time.
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zvavybir 
Math Doubts
Jote 🏳️🌈 