We Need To Talk About Calculators

In engineering school we embrace the hell out of our calculators. I've had a number of exams that could not be completed on time with manual calculation. They allow us to perform much more complicated work that can reasonably be done manually. My higher math courses embraced this philosophy as well. If you've passed calc 1-3 you have shown you know the underlying maths, the calculator is for advanced application.
That said, it's a tool like any other. You have to know what your tool does to use it properly.
Another facet is, at work (I do stress and reliability testing for a semiconductor manufacturer) we never trust manual calculations. Any manual work must be checked by a machine.
You can take my Ti-89 from my cold dead hands.

I took calculus 1 and 2 in the first year of university during COVID. My prof said we could use ANY technology we wanted since he couldn't enforce the restrictions fairly due to online. I got good grades in those classes, but I often relied on wolfram and calculators as a crutch. Let me just tell you... when I took calc 3 in 2nd year and we couldn't use any calculators at all, I hated myself for not learning things properly that whole semester. I just find that math is the subject that will haunt you for not learning things properly, and it was more painful to relearn those things manually when further classes assumed the knowledge.

Maybe not the most popular because of its price at the time, but the hands down best calculator had to be the HP-48SX. I still have mine that I bought in 1992. This thing is amazing and holds up well 30 years later. RPN notation rules.

So my Linear Algebra class allowed the programmable HP15C in the exam (I'm now showing my age). I thought I'd be clever and implement all sorts of algorithms on the calculator (eg triangularization, diagonalization, etc, etc) so I'd have an edge in the exam. I did really well in the class, but afterwards I realized that the time I spent learning the algorithms in order to implement them was what got me through, not the fact that I used a calculator in the exam. True story.

I took a graduate level thermodynamics class in the mechanical engineering department sometime around 1973 or 1974. I had an HP 45 calculator purchased after its introduction in 1973 that cost $395.00. There were about 10 students in the class and everyone except one poor fellow had a calculator. The professor decreed that we had to use slide rules on exams because not everyone had a calculator. I knew how to use a slide rule from my undergraduate days (1965 to 1969) but was pretty rusty, as were many others. If I had it to do over again, I would have grabbed all the other students who had calculators by the collar and told them "We are all going to contribute enough money to buy poor Joe a calculator so that we can all use them on the exams."
Sometime in 1974 I dropped my HP 45 on the pavement getting out of my car and it quit working. I sent it to HP for repair and got it back with a completely new or refurbished set of interior parts with about a three week turnaround time. The charge was about $40 plus shipping. That tells me that the manufacturing cost for the HP 45 was about $50 to $60 for everything. The remainder of the original $395.00 cost allowed HP to recoup its development costs plus make some profit.

In an engineering class, my calculator proved that a table in an engineering textbook had errors. When doing a problem in acoustics, there was a table of results for a commonly used differential equation. I didn't mess with the table lookup, I just programmed the differential equation into my HP-48 so that I could enter the couple of parameters required and the answer would pop up. I just wanted to eliminate table look-up error. On a test, I got a problem "wrong". Instructor wrote, "You looked on the wrong column of Table XXXXX and that error carried forward." I got most of the credit but docked a few points because my final answer was "wrong". Funny, I didn't do the table lookup, I had my calculator calculate that diff. eq. value. I pointed this out to the prof. He went and did some calculations with his HP calculator and MathCAD. As it turns out, the table was screwed up, it had a column of junk results inserted and that column shifted several other columns to the right so that about 1/4th of the table was just wrong. I got full credit and he sent a letter to the author telling him that his table is jacked-up.

When I was in engineering school in the '80s, calculators were absolutely forbidden from math classes. However they were regularly allowed in physics, chemistry, and engineering classes. Back then we used variations on the HP 41, which used reverse polish notation. It was much faster than an algebraic calculator for doing computations.

I like your approach to student calculator use. I took a Linear Algebra course many years ago and had a calculator that could perform matrix functions (very unusual at the time). Because we had to show our work, I still had to do all the steps by hand. But, I could also solve it on my calculator. If the answers didn't match, I would go back and check my work to find my error. I'm convinced I learned the topic much more efficiently and easily by using that calculator.

Back in the day, you couldn't use calculators at all on SAT/ACT/etc. You can today, but only on certain sections, and only with approved calculators. Like slide rules before, calculators are tools that only work if you are able to set up the problems correctly first.

The TI 84 can do numeric derivatives and definite integrals. It can also graph the functions. Only scientific calculators, non-programable and non-graphing, are allowed for Calculus in most universities in the United States.

I used a TI-89 for my math degree. I had some teachers that wouldn't let us use calculators at all, but I never had a teacher say I needed a calculator without a CAS. I always showed my work, and usually did problems by hand first and then checked with the calculator. I loved that calculator. Luckily, in the upper division classes we were able to skip some remedial work, like putting a matrix into rref, so being able to just draw an arrow with rref and let the calculator do the work was such a time saver. I would not have enjoyed my classes nearly as much without it. I even wrote some programs for my number theory class to cut down on repetitive modular arithmetic.

As an engineering student in the 1971-1975 era I feel like I have seen it all. We began with slide rules, and slide rules require you to estimate straight math which I think became a lost skill once pocket calculators (and now notebook computers) came on the scene. I remember knocking 1-2 hours per night off the time it took to do my homework when I bought my HP-35. Wow. Of course the question of allowing calculators on tests was an immediate issue. That was solved by the realization, that you have alluded to, that the real knowledge was in knowing how to set up the problem. So all test questions became designed such that the hardest math was dividing 4 by 2 and so forth.

Thank You for making this video. Although my formal training has been in Chemistry and Medicine (which required Calculus), I found myself (in 2006) disabled after severe trauma to my spine and accepted a temporary job teaching Calculus and Chemistry to preparatory High School students (Gymnasium).
As I myself had been taught in undergraduate and graduate schools, I permitted my students the use of a calculator (of their own choosing) and insisted they demonstrate their work in detail. Like you, my conclusions were that calculators can greatly enhance the learning, as well as the enjoyment, of Calculus. Of equal importance to achieving cognisance was the daily use of real world problems requiring Calculus to obtain solutions as well as making each student teach one 30 minute lesson in problem solving to our class (and myself).
PS - By 2007 I was walking again and had become a better teacher, professor, student, and Human Being because of the immensely significant lessons I had to master and the immense support received from my Calculus students.
Salomè, und leb wohl!
Mögest Du in das Licht, der Wahrheit, und dem SEIN der Schöpfung leben.

I still have my TI-84 Plus after all these years in EE. Used it to the point my batteries actually ran out after years of constant use through high school to university. They truly are exceptional in what they do and I agree they should be used as a tool despite the fact that my university has always discouraged us from relying on them. We couldn’t use them in our math exams for example.

As a part-time lecturer, I teach many Math-heavy courses and I make open-books exams so that the responsibility of success lies exclusively on the student. They can have any notes they want and they will get full marks if they show their working. There is no way of cheating this way and also I hate it when people are made to remember formulae

Since I am an old timer, I can tell you that we simply did not have advanced features on calculators in the mid to late 1970s. Even programmable calculators were quite expensive but none had graphing capabilities. When I took calculus and physics, we never were given exam questions that could be solved on our calculators, and we had to show our work. Even in physics only first semester physics that covered basic mechanics involved calculations, after that it was all theoretical when I took Physics. Since we could not graph on calculators, we learned the methods to graph 2D functions, find asymptotes, etc. My kids all used TI calculators in school. I don't see why any objection to advanced CAS calculators should be in place. My favorite calculators are the HP-41 and HP Prime calculator because I became hooked on RPN, HP Prime can even do 3d graphing. For more complex math I will throw it on Mathematica on my computer, even though I have found that the solutions obtained there can find you deep in the woods with much more complex solutions than one would expect to find by other methods. I know that HP-Prime can turn off CAS for predetermined time periods for exams that can be checked by professors in exams. I think that even now SAT exams allow calculators. A good professor can write exams that make a calculator almost useless if they want to. For learning it is up to the student to not use a calculator as a crutch and learn the math!

In my view, calculators are supposed to save time, not replace brains.

HP12C is what got me through all the actuarial exams. I still keep one on my desk just so I can see it everyday.

I remember getting an exercise sheet from a chemistry teacher on doing conversions or something... I was also taking a math course and I think I just felt inspired to try with all my might to do the calculations in my head. I spent most of the class just doing the calculations and from that point on I just tried to do it more and more. I've kind of lost the habit of doing things that way but I would definitely say it helped me process things better. it's like you get more used to seeing numbers as positions, I remember seeing the numbers like this in my head. lol trippy...

HP calculators are the BEST in the world. I started with TI calculators, but they failed after just a few months. I use HP 50g, HP Prime, and HP 35s calculators now. In the past, I used HP 41C, HP 18, HP 28, and HP 48g calculators. I think calculator use is good to a point, but they should only be allowed for one section of a test, the section with the truly difficult calculations. My last year in engineeriing school was when the HP 35 calculator came out. It cost $395, well out of my range. I used a slide rule through to graduation. One of our professors made us put whether we used calculator or slide rule at the top of the first page of the test. The slide rule students performed better than the calculator students.

We need to talk about slide rules

Very interesting points. In Brazil, the calculators most commonly used by students used to be Casio FX-82MS (general), HP 50G (engineering, physics, chemistry and mathematics) and HP 12C (economics and business). I am not sure about how it is nowadays.

I owned a Sinclair scientific calculator in the 70's and since then i have always used Casio calculators, currently using a casio fx991-EX, an excellent calculator.

I went to school and university in the days when we all carried log tables and a slide rule. At that time the abacus was still popular in China and Japan. There were competitions for school children, in which the fastest students did not actually touch the "beads" during a calculation, they just waved their fingers a little above the device. That allowed them to hold more digits in mind in intermediate stages of a calculation than would normally be possible. What they were doing was extending their brain's working memory by borrowing some visual memory for the purpose of doing calculations. I believe when computer memory was very expensive, some PCs did the same thing, by using memory reserved for one purpose for something else.

In my 1976 high school calculus class there was a little arms race of red LED calculators. The rich kids had HPs and the rest of us TIs, Bowmars, NSs, or others. I upgraded 3 times, from basic 4 function, to Bowmar MX 140 scientific, then to TI SR51, and finally to TI SR56 programmable. Next, in college, to the TI-59 magnetic card programmable. I think some tests allowed them and some did not. I still have that 59 and have re-collected the others. Good times!

Thank you for making this video. I prompted you to make a special video on calculators as I was struggling to buy a new one and you said you would very soon come up with a video. This video was an eye opener and helped me immensely in making a wise decision. Thanks once again.

I still use my HP 15C, bought it new in 1982 for engineering school, and have used it all my life. It's in from of me right now.

I'm still torn about the use of calculators before a certain age or grade level. I never saw, touched, or used any calculator until I was forced to purchase and use a basic scientific calculator for high school chemistry class (10th grade) and then physics class. Never used a calculator in any high school math class including trigonometry (pre-calc) and calculus. When I got to college, the scientific calculators were instrumental, especially in the engineering classes. I went on to get an undergrad degree in Electrical Engineering and a graduate degree in Computer Design Engineering. I've never used any graphing calculator or anything like the TI-83, 84, and so on. I do have issue with students using calculators for any reason before they absolutely need to (e.g., perhaps high school chemistry & physics and I guess, nowadays, trig/pre-calc and calculus, since I don't believe today's textbooks contain printed trig tables). It absolutely blows my mind that kids in 4th and 5th grade are allowed to use calculators. I taught high school Algebra and Geometry for a few years and those students couldn't add 2 simple numbers together at 15 and 16 years old. Pathetic. I've heard teachers and administrators claim that, because students need the calculators for the SAT, they have to be taught early to used them. I refuse to believe that irrational and illogical line of thinking.

I think that your position is the best one. I personally only use a calculator if it’s for a numerical answer that would be impossible to compute by hand in a reasonable timeframe. Or if I have done a numerical method to solve something like a DE and want to check my work afterwards. Because it’s easy to make small arithmetic errors here and there when dealing with very complicated numericals. Other than that I don’t touch a calculator.

Still got my HP-48SX. It was a must have for getting a degree in mechanical engineering.

I bought a hp 48gx in the late nineties as a civil engineer student and im still using it now. It works better than a Swiss watch. I love it especially because of 1 enter 1 + functionality and the units conversion and it matrices functions etc etc.

I was a physics undergrad and can't recall many situations where a calculator would have helped in physics.
That said, I did use a calculator in my Chemistry class. Until the calculator ran out of power during a final. The only thing that saved me was that I had been carrying an old slide rule around (because slide rules give serious geek cred) and I knew how to use it. I ended up using most of the time in that final, but got an A in the class.

The best calculator I have used is the TI-36X Pro. It is what I grab for Statics, Dynamics, Mechanics of Materials, and Circuits. You do not need to graph functions after the math classes for engineers. If you do, it was elementary, like shear-moment diagrams in statics and mechanics of materials. But I loved my TI-84 Plus CE, especially when I downloaded Pac-Man. My TI-84 was lost, unfortunately.
Also, the TI-36X Pro is around 20 US dollars. Excellent for people who have restrictions on calculator use in the class.

I never really embraced the graphing calculators and my favorite calculator of all time (which I still have and use) is the Hewlett-Packard HP-15c which I got in June 1985. To me, it was perfection and I have an emulator for it on my iPhone and use it as my phone calculator.

TI calculators where also popular because Texas Instrument had an incentive program. If a teacher or school required the students to get a TI calculator then the school could get free calculators and other materials from Texas Instruments based on the number of students were required to get the TI calculators.

Bit of an aside, but I continue to use my Ti-83+ since I got it for maths class in high school, back in about 2003. I have this calculator and a high school friend to thank for introducing me to programming.

The story from The Man Who Knew Infinity is true. The academic was Percy Macmahon who was into combinatorics, not only did he quiz Ramanujan as soon as he saw him, but also continually whenever their paths crossed.

I use either the computer or phone's calculator app, Excel, or Jupyter depending on what I need to do.
The sort of calculations we do at work would take days to do by hand, but can be done in less than a second on a computer. And what is important isn't knowing how to do a calculation, because computers can do that much quicker and much more accurately. It is knowing what numbers to use, and which calculations to perform on them to get the answer to the question.

I still have a casio fx992s. It is approaching 30yrs and still working. It is fast, there is no nonsense and i really liked it during school, university and now, sometimes at work.

It’s all about stating expectations in the class ahead of time. Had a professor state at the beginning of a semester that no calculators were allowed and if you couldn’t do a lot in your head quickly you’d run out of time on exams. Fair enough.

in 1975, this guy had this slide rule which sat on four feet, it had TWO sliding bits, we looked at him in awe. Then he bought a HP45 which was hugely expensive.

I have perspective both as an electrical engineer with 45+ years of experience and as a parent with two kids having gone through math programs upto various levels. When I went through high school in the mid '70s no calculators were allowed, but we could and did use slide rules. As I continued my education the use of calculators were increasingly allowed, but none of the calculators of the day had the ability to do algebraic or calculus functions. I had a TI-58, then TI-59, then HP41CX, then HP48SX, then HP48GX which I still have but mainly now use the emulator app for the 48GX on my iPhone. Having had the 48GX for 30+ years I have many programs that are really handy to have in my pocket, not to mention the unit library and unit conversion functions and more.
When my oldest daughter started taking her math classes I bought her the TI-84 Plus CE and that was fine. She did take some AP math classes but didn't go on to calculus. For my younger daughter I bought the TI Nspire CX II CAS. The calculator does have a test mode that turns off certain features so it can be used on exams where the advanced features aren't allowed. The problem with the Nspire calculator was that the HS math teachers were more used to the TI-84 calculators and many of the examples taught in class used that. The programs and steps weren't usable on the Nspire calculator. So I purchased one for myself and started using it and writing or converting some of the programs for her and also converting some of my old HP48 programs for use on my Nspire at work. It's nice that it has a companion software package to emulate the calculator on the PC and transfer programs, etc.
My younger daughter ended up being awarded the calculus student of the year at her school so she was able to make the Nspire work OK. That said, she is now in her second year at UCSD in the EE program and she wasn't allowed to use the Nspire in some of her classes so she bought a fairly inexpensive non-programmable one that I don't think even does graphing, or if it does it's fairly limited in its capabilities. That is her daily driver and she said she rarely uses the Nspire now. That may change when she gets deeper into the EE program.
In my day job, we of course don't have any test restrictions, so I'll use whatever computing functionality gets the job done. Computer simulation often times, increasingly the Nspire mainly because I'm forcing myself to, but the HP48GX emulator on my iPhone in my pocket is till the #1 goto because I always have my phone, and I have decades of familiarity with it and the library of programs I've written over the years - that and it is lightning fast compared to the original HP48 :)

In Calculus II currently, computer science and data science majors. Our calculus sequence did not allow calculators, our statistics sequence does. (or you can use R on the test)
Calculus I really shouldn't allow calculators because it is basic Calculus concepts where as Calculus II I think could. It is so easy to screw up a sign when using higher level integration techniques that it would help to verify. Even with a CAS in the calculator, if I had to show my work, I would feel more confident in my answers. Without a calculator sometimes the solution isn't always clear so you can spend a lot of time integrating the wrong way, a calculator in the class could help and you could "prove" your answer. I dont know at this point especially in my field, I can write a function for most of the maths I'm doing, but proving it is what matters.
I've had my TI84 for 10 years and hope to give it to my kid as something sort of cool

I recommend the TI-36X Pro for people in my statistics class as it's under $25 and can do some really nice stuff like normal distribution calculations most others in that price range can't touch. the functions like !, Permutations, and combinations are also easily accessed with thier own dedicated key instead of having to hunt through menus. It's also just a lot better laid out for data entry and other functions requiring fewer keystrokes to get the job done.

During uni I've had classes with two types of calculator requirements, either free (but you're expected to use the recommended one) or from a strict feature set.
The former was using in my EE related classes and we were informed to get the HP50g, but since they had gone out of production it fell back on what most students already had from highschool the Casio FX-9860II or similar. The only real big comfort for the calculations we did was being able to easily work with complex numbers.
The latter choice was what we used in pure maths classes, and we were insturcted to get a Casio FX-82 or similar.
I don't mind this at all, as long as the curriculum and exams are designed with your available resources in mind, it shouldn't matter

Still have several TI-84 Plus. The one class I remember best where the professor was adamant that no calculators be used was linear algebra. After the class struggled through row reduction, determinants and a bunch of other stuff, the professor said that now, since we had a "first hand" understanding of the techniques - and the sheer drudgery - of doing this on, oh say, 3x3 and larger matrices, we could now use the TI which had some cracker-jack matrix functions. The professor also had a multi-page guide on how to use the TI and some programming tips for the thing to boot. Made life a heck of a lot easier. The first few weeks burned the basics of linear algebra into lasting memory, but I guess that was his point.
My DE professor said we could use calculators but remember that the thing could not understand the problem or set up the appropriate structure which was needed before any calculations were done. She was right of course. And then there are the CAS systems which can give unpredictable results if you do not understand the problems and how to proceed to solve them.
I add that when I was in these classes mentioned, I was a "non-traditional" student: Retired and taking them for fun. The first time around physics and mathematics problems were worked out on paper and calculations were done by hand, literally, with the help of a log-log duplex slide rule. Still have a couple of those around here too, but, I'd rather use a calculator. For obvious reasons. . .

I bought the new $150 Ti84-CE but ultimately went back to the good old $20 Ti30-Xi. Also invested in a really nice slide rule, thought I would be cool busting out a 1950's slide ruler in my algebra class, but those things are actually really complicated. So good old Ti30-Xi, fast, cheap and uncomplicated.

In avionics, the qualification testing mandates the TI-30xa. This is due to (as you said) all the things it *can't* do.
This means I have to teach my younger students to unlearn the V.P.A.M. input method they were raised on and learn how to employ the algebraic entry system that was in common use from the '70s through the '90s. This is a surprisingly difficult hurdle for them, so I keep a supply of these calculators on hand, sell one to anyone who doesn't own one, and insist that they *only use that one* in day to day operation until the day of the test.
I demonstrate solving a resonance problem using a Pickett microline slide rule, then the calculators I used in school (the Commodore SR4120D, the Casio FX120, and the Casio FX82) to show that the process is the same for all of them.
I also drill them heavily on linear to deciBel conversions and back (necessary in our field), and show them how to use that to calculate close approximations of products, quotients, powers, roots, and reciprocals without the use of a calculator.

Calculators are a tool just like what tools a contractor uses to build a home. My opinion is a student should know how to do the calculations on paper first then once they know how to do the calculations then use a calculator. This is a side note. I go to a store and hand an associate a $20 bill for a purchase for example $9.10 cents. Back in the day when we had the old fashioned cash registers you would take the $20 and count how much change to give back to the customer. Now we have cash registers that will display the total amount we need to give to a customer. I have in many instances helped the associate how to count the amount of money. I know it's elementary math but my point is if you don't know how to do the calculations then learn this first on paper then after you mastered this use a calculator. Sorry for the long winded example.

A decade ago, I used an HP50g (the most capable calculator on the market at the time, before the HP Prime came out) for Calculus. My prof's rules were the same as yours.
Rules varied for other classes. For my circuit analysis classes, I had to have a cheaper TI model (a variant of the 30, if memory serves) because it had no storage or programmability, but could still solve systems of linear equations with complex numbers. Solving the linear equations by hand would have forced the professor to write tests that focused more on solving the equations than on the actual circuit analysis itself.

In my elementary algebra class, we were required to have a ti-83 (can't remember if plus or not), but I almost never used it. In my engineering math class, which was basically pre-calculus with tons of application exercises, we were required to have ti-86 (can't remember if plus or not), and I used it all the time. After I graduated, I bought a nspire cas. Great calculator. For on the go, and for super cheap, I just got a Casio fx-115ESPLUS2 2nd Edition. It was $17, and it's the best money I've ever spent. I LOVE the thing. Recommend everyone gets one. There's another, newer version with a significantly better screen, but they buried some of the useful functions in the menu which, otherwise, have their own, dedicated buttons.

At my engineering school all math exams are divided into 2 parts :
- first half of the exam no calculators are allowed. This ensure you know the formulas, know how to compute by hand;
- second half you NEED the calculator to solve the problems as they are a lot more complex and in-depth. They require a deep understanding of the concepts so knowing only how to compute the stuff and what to plug into the formulas is not enough. It often requires a lot of theorizing, proofs and trial and error, so it's litteraly impossible to finish on time without the calculator to test a lot of hypothesises.
For every other course such as chemistry and physics the calculator is always allowed as the math is not the point of the course.
Every student has the same calculator, the TI-Nspire CX CAS II which is amazing. Spreadsheets, programming, graphing in 2D and 3D, LUA and Python support, and just so much more useful stuff that we actually get to use in practice.
I love my calculator. It can be a useful tool for teaching more than just basic computation.

I remember once, I was monitoring an exam (I think it was statistical physics) and one student did 1+1 on the calculator LOL
Ok to be fair, during exams I also double-checked super simple math... mostly because of the pressure during the exam, which might trigger some "OCD" like state where you compulsively need to double check everything, even super simple stuff, you would not use a calculator for otherwise.
That said when I was in college we could only use non-graphical calculators. So just very basic ones that can do the four basic operations, exponents, logarithms, trig fuction and not much more.

Retired engineer wanting to get into a graphing-calculator but want RPN since I started with an original HP-35 back then.
I’ve been considering the HP-Prime G2 but not sure if it is the way to go…

I have texas instrument 84 ce plus and casio cg50 however cg50 is way ahead, high speed, more options and more friendly with 20 equations in one screen. Simply the best.

In some times, calculators are essential. To calculate faster. That is what they are basically made for. Each have times that they fit to be used; calculator computation, and brain computation.

The popularity of the TI calculator is mostly due to the requirements of the AP exams. It's the most powerful device allowed by the rules of the tests (Calculus, Physics, Chemistry).

You would have been better off simply saying that CAS calculators would calculate derivs and integrals EXPLICITLY, thereby allowing student to write down the correct answer WITHOUT actually knowing how to do calculus. The non-CAS versions computed numerical derivs & integrals, i.e. the calculator would compute the derivative or integral INTERNALLY and would wait for the user to input 1 value for a num. derivative and 2 inputs for a num. integral and then spit out a specific numerical value for the derivative at that input or for the integral between the 2 given inputs. For non-experts: A) the derivative of x^3 = 3x^2 But the non-CAS calc wouldn't yield that specific answer. It required the user to input an x-value, say x=4, and then it would calculate internally 3(4^2) and spit out 48. That is you'd get 48 instead of 3x^2. Same for the integral. As an aside, in 1997 I had a student show up for the AP Calculus exam with a TI-200 which provided Explicit answers. This thing made dinner! Too bad he couldn't use it on the exam.

I first learned algebra with logarithms in a night-school college course while I was in high school in 1968. Half the work was looking up and copying the right logs from the massive catalog of tables. My TI84+CE stores all that, trig functions, and a lot more in such a small, easy-to-access device -- PLUS it removes the decimal and reading errors I could make with my beautiful K+E slide rule -- which I still have. I think calculators make it easier to learn more math in shorter time. 😎🖖

The classic HP calculators are the best by far. Currently a Swiss company called SwissMicros sells reversed-engineered versions of those, can't recommend them high enough. No, I'm not their employee, just a happy customer. The reverse-engineering is super accurate (even the hardware is very solid, metal case and the classic HP keypad "click feel") and because of that one can use the equally classic and phenomenally well-written original HP user manuals with them (they are available online). I bought their DM42 (which is the HP-42S, with 34 decimal places accuracy if one ever needs that sort of thing). The HP calculators in general were famous for the quality and stability of their numerical calculations (this sort of thing plagues some newer calculators) as they had William Kahan as their expert advisor, a recipient of the Turing Award and one of the authors of the IEEE floating-point standard.

TI Graphic Calculators were really useful because they had a lot of features for university, the deal is to write and confirm the process, smartphones could have replaced the use of calculators but are more focused on CPU and Camera improvements and Google Play Apps math focused sometimes don't update too much as they want.
They allow scientific calculators because power numbers and analitcal methods are more used IRL.

in all of my math classes i've never been allowed to use a calculator except for basic algebra classes. I've taken calc 1, calc 2, calc 3, differential equations, and advanced engineering math. I believe the biggest defense against calculators is that it forces the students to actually understand the concepts more, rather than just plugging in the numbers.

As I am an "ole style eng" I prefer RPN programmable calculators.
They are far more versatile (if you know how to use them of course) and they can be used also for everyday trivial math.
In my opinions, CAS are better in a computer. Plotting a function in a small screen is an inconvenience.

I took what was essentially calculus I and II my senior year in HS. No calculators, period. The following year in college, I took calculus I and II again. Again, no calculators, period. This was over 25 years ago. I am proud to say that to this day as I type, my math skills are still really good. I can do differential and integral calculus by hand like a hot knife through butter. In many ways, my calculus skills are better now than they were in college. So much so, I am considering taking some online courses in higher math for the first time. My secret? My calculus book (Thomas/Finney) had answer to the odd problems and during college I did them all. Sometimes twice to get really fast.

Best calculator in the world is HP 41 C ! Mine works great for over 4 decades now!

I always used HP's with RPN. Always! Ever since 1973. I still use an HP10, 41CX, and 48GX.

I've taught several physics courses as a TA. When we deny calculators, either 1) the exam will either be without numbers so that the answer will be a formula or 2) the numbers will have been selected to be friendly and other rounding will happen like gravity will 10 m/s^2 instead of 9.8 m/s^2.

The UK version of that calculator is the Casio CG50.

If it doesn't do RPN then it is substandard ;-)
The unspoken benefit of RPN is that you need to look at the whole equation and then decide where to work from. This is invaluable when it comes to actually understanding what you are doing.
RPN let's you start anywhere in the equation but you still have to know the whole calculation, which forces an understanding, versus those who just plug the equation into an infix based calculator.

As you said, there is great value in mental calculation (or even estimation). Institutional dictates drive big numbers. My warning to students is not to use their "magic box" without appreciating what it would take to do a statistical formula by hand, once or twice. Teaching Statistics for over 20 years.

I finished my BSEE in 1972. We used slide rules to perform our calculations for homework and exams.I still have my slide rules but have forgotten how to use them. The first hand calculators came out in 1974 and I was eventually able to purchase one for use in grad school.

When I was in school we had no electronic "calculators". We did have slide rules, trig tables and sq root tables. By the time I was halfway through high school calculators were just starting out. In 12th grade in 1975 I had a Texas Instruments SR-50. It was well over 100 bucks and state of the art for its time. It could do trig functions exponents, roots, natural.and base 10 logarithms and a 10 digit red LED display. Most calculators of that era had at most 8 digits .

Dear Math Sorcerer, as a student of Electronics, I own the best calculators on the market. Ti-89, Ti-200 Voyage, Ti-Nspire CAS, HP 48G, HP 50g, and HP Prime. To my knowledge, none of these calculators actually do Calculus - step by step - beginning to end. They just give you the answer. What have you learned by getting just the answer? Not much. And they definitely do not do Math Proof. But, I do know that each one has its strengths and weaknesses. The Ti series are much better at doing pure mathematics - they tend to give cleaner answers to say, Calculus problems than the HP series (except maybe the HP Prime - I haven't used it that way - so I do not know). That said, the older HP 48G and 50G are way better at doing Unit Conversions - way better. So they are much more friendly to courses that do Unit Conversions - like Electronics or Engineering. They also do Vector calculations beautifully. They can go back and forth with Polar and Rectangular Vector representations - instantly. They allow you to do Ohm's Law calculations with AC Circuits! It is much slower and clunkier to do Unit conversions and Vector calculations with the Ti machines. John M.

If you understand what you do in math, you can do it with and without a calculator. Some things are just easier with an calculator, but being able to do the calculation by hand, will enable you to understand what you are doing. Meaning you can apply it also with less sophisticated calculators.

In some countries, Casio is the default in education.

Just got the HP15-C Collector's Edition. It will always be the best calculator for me. :)

There's something to be said about mental math skills in relation to the new technology phenomenon of AI (ChatGPT).
Having skills in mental math (and problem-solving in general) allows us to better understand what we are doing. What part of a process we may not be considering. And overall detecting errors. Both on our part and the AI tool. Today's AI still makes algebraic mistakes (and probably other kinds too). Therefore we still need to know how to do most of the work ourselves.
Also, the best way to use AI is to ask correct questions. A more specific question/prompt results in a better response. Just like with functions: Need certain inputs to obtain desired outputs. In order to know what we want, we have to exercise our mind by looking at all angles of the problem.
There's a movie quote I like to remember from the Will Smith movie - "I, Robot". Main character is asking questions to a responsive hologram of an educated dead-man.
Paraphrasing, the hologram says:
"To obtain the right answers, you must ask the right questions."
I think about that every time I use ChatGPT.

I got a TI-85 in the early 90s when I was in high school. I did not have a computer, so this WAS my computer. I learned the calculator inside and out, and as a result of my fascination with the calculator, I learned more about math. I later discovered HP calculators, and enjoy them more, but I still have my old 85 (and 86, and 89, 92, etc, etc)
I think I was the rare student who improved my math skills by having the calculator, even when only given a pencil and paper I was better that before I got the calculator.

I used SymPy for the Linear Algebra class, mainly to check my manual calculations (Matrix inversion, eigenproblems etc.)

I live in Australia.
(I find it very self-explanatory at this point 😂)
At higher math levels called Mathematical Methods and Specialist Mathematics, our Paper 2 exam (VCE; State Exams) require CAS calculators. And because you are not required to delete its history, you can download programs and use it to your full advantage. In a specialised science school in Victoria (John Monash Science School), I think they even use laptops with the CAS program downloaded in the proper exam.
So I think that the use of CAS in Australian high school mathematics is not because they want to teach us maths properly, but to weed out students who can’t use calculators quickly.

I still have and use the TI-83 along with the instruction book and an Open University book about using it in various STEM uses. I first got it in 1997 and it was a steep learning curve at the time.
I've found it very useful over the years.
I got my first calculator as a very expensive Christmas present in about 1975/6. Unfortunately at school we still had to use slide rules and the new calculators weren't allowed in maths classes. The first thing every boy did back then was type in the numbers that made rude words when turned upside down and they've probably been doing it every generation since.
I had poor maths teachers who would only explain things you couldn't understand a couple of times then gave up on you. If it hadn't been for calculators and the new computers back then I would have been in real trouble as they gave me a leg up and a career.

In high school we used slide rules and when I went to college I had 4 function plus sqrt until junior year. Then I got an hp with rpn and it was great. But I made it through Calc 1,2,3 diff eq and lower level ee courses with no high tech calculator and our engineering was as effective as anything I have seen since then. Modern tech makes design faster but their programming is based on stuff we did with pencils. It is just faster and easier to access.

Hey Wiz. Love your content/channel. I've been thinking about the similarities between calculator functionality - as a learning tool (when we were coming up) and the perceived challenges emerging AI tools represent to the next generation of teachers and professors. It seems like a good analog.
I'd be interested in how you see AI tools from a teaching perspective and as professional tools much as we might use a calculator with CAS functionality to quickly dispatch workloads.

I the TI 85 and the TI-89. The TI Inspire does a little to much for me. The advanced calculators are better for classes outside of the Calculus sequence.
In EE the Ti89 came in handy for matrices and could even help with Laplace transforms. The main thing to consider is the deadline. Doing a multiple page length tedious equation manipulation by hand an hour out from a deadline isn’t fun.

I love calculators......glad for your video. I'm an HP fanboy. HP48SX through HP50g

The girl who did simple calculations in the calculator probably didn't do it just because she couldn't mentally add. We just do that because we're just so fearful of making a simple mistake that can mess up a whole calculation. It's just to make completely sure.

Learning to use a calculator and to always show your work are both correct. We use Casio calculators that have equivalent functionality, including some python programmability, rather than TI for mostly cost reasons. Casio online resources are also much cheaper and are quit good.

I once gave an Algebra II test and did not allow graphing or scientific calculators. I allowed the students to use a printed 12x12 multiplication chart and a chart of perfect squares. They did just as well with these pieces of paper as they did with their expensive calculators.

In my BEng honors degree we were recomended to use the Casio fx 85GT plus, or something very similar. I used it and it was great. We werent allowed anything with a Calculus capability though.

I am old, 61. My undergrad was electrical engineering, worked until 2012, and 'retired' at 50. A year later, I am part time in a HS tutoring kids in math.
I am more than surprised that so many students haven't mastered the multiplication table, not to mention it seems to have shrunk from 12x12 to 10x10.
It seems to me that students are losing math fluency for multiple reasons, one of which may be the early introduction of calculators. Student is working on a quiz question, a gravity problem. Drop a rock from 1200 ft, how long to hit the ground? "866 seconds". I ask if she checked her work. Yes. Hmm. I ask how long 900 seconds is. 15 minutes. So just under. So you see your friend drop the rock, go to the coffee shop, order the coffee, talk to a friend, and come back before it hits the ground? She took the quiz back, and finally saw where the mistake happened.
I've seen students use their calculator for adding, as you commented on. Yesterday a student struggled to subtract, something like 15-7. I encouraged tapping her fingers to count down. She thought this was embarrassing. Why is using your own fingers more embarrassing than using a calculator for this?
We are at the point that we have a mix, some tests are no-calc, some allow it depending on the topic.

My calc teachers lets us use any calculator we want for the classwork (I use the TI-92), but for tests there is no calculator section and then a calculator section, on which we are only aloud to use the non-cas nSpire calculators. I think its a fair system, it lets me cut through some of the monotony of homework yet still requires learning to occur.

I'd say use them for results checking etc. but with the _big_ caveat that most maths/physics exams i've taken (up to undergraduate level) _don't_ allow CAS calculators so don't get too reliant - you still need to be able to do the operations yourself in exams so it's best to get the practice beforehand.

I personally like the casio fx-991ex. I’m not sure if this is allowed in the US.

It's also relevant that only certain calculators are allowed for the ACT, which is a big reason schools standardized on the 84

for years, i have tried to write a good algebraic-manipulation command-line; specifically because of Geometric Algebra. being able to TRACK all of your algebraic steps, like a Chess game-tree would be wonderful. the main thing would be to maintain a stack. when you say "a/b", you neet to add a side-condition of "b!=0". a proof would be simply starting at one point, and reaching another by having a trace from one point to another. it drives me nuts how much stuff can't do non-commutative algebra.

I have had 2 interesting math experiences where having the calculator during the exam somewhat adds to the difficulty.
The first is the ACT , a standardized test for US colleges. Unlike the SAT act does not have distinct "calculator" and "non-calculator" math sections. It's not difficult math but there's a harsh time constraint around solving 60 math MCQs in 60 minutes (you generally cannot afford to spend one minute on each question since some are harder than others ). So the expectation is that you should be able to quickly when a question is solved faster using a calculator Vs when it's solved faster using some high school math intuition.Clumsily trying to compute everything using your calculator can cost valuable time.
The other experience is IB math (the curriculum has changed quite a bit since I took it so I'm not sure how muc of this is still the same ). You have alreast 2 different equally weighted final exams , one with a graphing calculator and one without. Rather than having the calculator paper be easier than the non-calculator one , having a calculator allows them to test you on some material you wouldn't be able to solve without graphing calculator. Even there time management wise some key decisions have to be made between doing parts of long calculations by hands and other parts by calculator, while showing sufficient working to alreast get partial credit if you get the final answer wrong.

The calculators have their place in various aspects of science, math and engineering. I never found the need to perform graphing on calculators as most of my engineering and related courses relied on analytical approach and calculation step was towards the end of problem solving. For this a simple Casio/TI/HP engineering calculators are enough. For more complex projects and iterative processes, you will end up using a spreadsheet or writing a code to solve problems. It's nice to have graphing capability in a hand held calculator, but not a necessary function.

Yes, it's a good product ,i have TI-89 and not expensive now in 2023.

Here in the UK, Casio are probably the most familiar brand, I use the Casio fx85. I bought it in 1999 and it's still going strong. It's pretty basic in its features though.

Man I am sad. I bought a ti 84 plus for sophmore year, because it was recommended. Now I'm a Junior, and our teachers don't allow us to use any calculators. Now my TI 84, Hp prime, and TI NNSPIRE are just sitting at home