Weakness in mental arithmetic = weakness in math?

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In summary, Nabe is saying that if you have a weakness in math, you can improve it by practicing. However, it is not necessary and most people do not need to be good at mental arithmetic.
  • #1
Juwane
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Halfway through an undergraduate course in engineering, I'm now planning to review math fundamentals from pre-algebra, algebra, geometry to trigonometry and finally calculus because, as you may know, having a solid foundation in math is vital for any engineering course, and I've always been weak in math. I also happen to be very weak in mental arithmetic (adding, multiplying, etc. in head). Even a calculation as simple as 4+7 makes me think for many seconds, and when I can't figure the answer out I use my fingers to count! If this is for addition what can we say about subtraction? For addition involving two negative integers I always use the calculator so as not to make a mistake, even for such numbers as -7-3.

Does having these problems impair one's ability to learn new math concepts? Should I improve on mental math before I start reviewing?
 
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  • #2
As an engineer, this kind of thinking isn't really that important. Seeing relationships between numbers, easier ways to multiply/add/exponentiate/etc. might be important in more of the realm of number theory or something, but not engineering.

That said, if 4+7 takes you several seconds to compute, I imagine going through a numerical problem takes a lot of time. Simple mental computations arise everywhere in physics and mathematics, and the extra time I would imagine to be ridiculous. So for the sake of saving yourself time, I'd say it's a useful skill to practice.

Don't worry too much though.
 
  • #3
Nabeshin said:
if 4+7 takes you several seconds to compute, I imagine going through a numerical problem takes a lot of time. Simple mental computations arise everywhere in physics and mathematics, and the extra time I would imagine to be ridiculous. So for the sake of saving yourself time, I'd say it's a useful skill to practice.

But I can use a calculator. Can anyone imagine studying engineering without using a calculator?
 
  • #4
Mental arithmatic is not required in the slightest, convenient but not required.

Its all about being able to maniputale formula correctly.

Being good at mental arithmatic only requires practice. The only reason I became good at adding up quickly was becuase I worked behind a bar where you had to add up the prices in your head. Being able to add up 2 bitters and a gin and tonic, whilst pulling drinks and holding a converation, quickly became second nature.
 
  • #5
Juwane said:
But I can use a calculator. Can anyone imagine studying engineering without using a calculator?

Sigh, I guess. I was thinking in terms of something like factoring, differentiating, integrating, where there's quick arithmetic to be done. Or rationalizing fractions, multiplying by conjugates, etc. and I guess you can do all of that on a calculator. I'd argue it's faster (at present day) to do a lot of this in my head that type it into my TI-89. Also I find there's a much greater continuity of thought going through a problem pencil-paper-brain than with a calculator in hand.

Of course this begs the discussion of what the hell is the point of learning it anyways when you can do it all on the calculator, but that's neither here nor there.

The answer to the question of whether or not lacking arithmetic ability impairs your ability to learn math is a definite no in my opinion, but like I said, I find value in it.

-Nabe
 
  • #6
Juwane said:
But I can use a calculator.

Weakness in mental arithmetic is something you can improve, but only if you want to. Using a calculator is the usual solution for anyone these days, including mathematicians (and math teachers). It is no longer necessary to know what 2+2 is. However, if you ask me, everyone should know, or be able to figure out the answer rather quickly, because it is elemental. It's like knowing the alphabet. I say even if you can do your job as an engineer, it is important to have the basic skill of addition.

There is a book called "Speed Mathematics" by Bill Handley. It assumes some basics, but teaches you new and easier ways to calculate things (addition, subtraction, all of it). It's really cool. Maybe that could help.

Don't loose sleep over this. I can tell you that 97^2 + 15 - 6^2 = 9,388 without using a calculator (seriously, I swear I didn't use one :smile:). Was it necessary... no.. of course not. But I worked hard in order to improve my mental ability, and the fact that I can do that makes me feel a little better about myself. You can too, if you want to.
 
  • #7
benk99nenm312 said:
I can tell you that 97^2 + 15 - 6^2 = 9,388 without using a calculator (seriously, I swear I didn't use one :smile:).

Can you say how many seconds did you take to do that one?
 
  • #8
Juwane said:
Can you say how many seconds did you take to do that one?

About as many as it took me to type it out... so around 5.
 
  • #9
53^2 + 62 - 3^3 = 2898

I took 1 minute 51 seconds to do this one, ending up with a wrong answer: 2571.

Do you have any hope for me?
 
  • #10
I think some ability is necessary, but not too much. You should know how to go through the algorithms with pencil and paper... but in your head? I would say only order-of-magnitude calculations need to be done in your head, and those should be easy anyway (if they're not, you're doing something wrong).

They do still teach the arithmetic algorithms in schools nowadays, yes?
 
  • #11
Juwane said:
Does having these problems impair one's ability to learn new math concepts? Should I improve on mental math before I start reviewing?

No but I find it helps one concentrate on one's work better, double check an answer and even follow what the professor does in class!

I'm not demeaning anyone but I do remember an incident where the professor had something like [tex]1 = \frac{4 \mu_0}{2 \pi}x + \frac{1}{3}[/tex] then the professor said [tex]\frac{4 \mu_0}{2 \pi}x = \frac{2}{3} [/tex]

and this kid asked how in the world did he get 2/3 from. Needless to say many people got a kick out of it.

Learning to do mental arithmetic can save you many trivial steps especially when someone is trying to explain something to you. IMO its better that way because I used to be a tutor and I would pull my hair out when my students asked my to show a trivial step =(
 
  • #12
Juwane said:
53^2 + 62 - 3^3 = 2898

I took 1 minute 51 seconds to do this one, ending up with a wrong answer: 2571.

Do you have any hope for me?

You betch-ya champ. :biggrin:

I already mentioned it, but I should again. That book "Speed Mathematics" by Bill Handley is one of the best books ever written. I wouldn't be able to do that without reading that book.

I'll show you a cool example on the back cover of the book.

96 x 97 = ?

The usual method of 7 x 6... carry the 4... and so forth is way too slow. There is an easier way. We use what's called a reference number (in this case, 100). It's hard to explain what that is, but you'll see after this.

So, what we're going to do is subtract both 96 and 97 from 100.

100 100
-96 -97

We end up with 4 and 3, respectively.

Now, we subtract diagnally. Either 96-3 or 97-4. Either way, you get 93. (These are the basics you would make sure to know before moving on to this.)

93 x 100 (the reference number) = 9,300. That's simple enough. You're just adding two zeros to 93.

After that, we will simply add the product of the 2 numbers we found earlier (3 and 4) to 9,300.

3 x 4 = 12 <--(basics, just memorize problems like these)

9,300 + 12 = 9,312

See. Easy, isn't it. With practice, anyone can do that mentally.
 
  • #13
Thats mega...
 
  • #14
xxChrisxx said:
Thats mega...

Tell me about it. I nearly wet myself after I read that through the first time. It still gets me excited. :biggrin:
 
  • #15
benk99nenm312 said:
That book "Speed Mathematics" by Bill Handley is one of the best books ever written. I wouldn't be able to do that without reading that book.

I know that book, and I also have "Secrets of Mental Math" by Arthur Benjamin and "Shortcut Math" by Gerard Kelly, and both these books contain some pretty neat tricks to do mental math. However, the problem with these books is that they often show you how to do ridiculously large numbers, numbers for which someone would ask for a calculator 99% of the time anyway. And who would remember the steps for the example you showed? It may be easy using pencil and paper, but then doing it using the traditional method (right to left) is much easier, for me anyway.
 
  • #16
Juwane said:
I know that book, and I also have "Secrets of Mental Math" by Arthur Benjamin and "Shortcut Math" by Gerard Kelly, and both these books contain some pretty neat tricks to do mental math. However, the problem with these books is that they often show you how to do ridiculously large numbers, numbers for which someone would ask for a calculator 99% of the time anyway. And who would remember the steps for the example you showed? It may be easy using pencil and paper, but then doing it using the traditional method (right to left) is much easier, for me anyway.

That's cool. I guess if you want the basics down, you could do something I used to do. You could write out a page of 50 basic math problems, and then time yourself on how long it takes to complete it. I remember I got about 23 seconds once on a 50 question multiplication paper (you know.. 5 x 7, 8 x 9). That's the most effective way I know of to memorizing and sometimes computing the basics.
 
  • #17
But all that apart, should I go ahead with my review without worrying about mental arithmetic, which perhaps I can improve on while doing the review?
 
  • #18
Juwane said:
But all that apart, should I go ahead with my review without worrying about mental arithmetic, which perhaps I can improve on while doing the review?

I would practice a bit before doing the review. I wouldn't think it would take long. Maybe a week of somewhat hard work and that should suffice.
 
  • #19
benk99nenm312 said:
Maybe a week of somewhat hard work and that should suffice.

I've got only four months for the review, and I have to do a lot of things in it: algebra, geometry, not to mention calculus.
 
  • #20
Juwane said:
I've got only four months for the review, and I have to do a lot of things in it: algebra, geometry, not to mention calculus.

I don't know what to tell you, other than I think its necessary. You should have enough time to work on it.
 
  • #21
And who would remember the steps for the example you showed?
97*96 = (100-3)*(100-4) = 100*100 - 4*100 - 3*100 + 3*4 = 93*100 + 3*4

That's all he did.
 
  • #22
Juwane said:
But I can use a calculator. Can anyone imagine studying engineering without using a calculator?

Can anyone imagine studying Arithmetic and Basic Math in elementary school and junior high school without using a calculator? YES.

What about for Engineering? NO. You want the calculator, at least a scientific calculator, for efficiency. You are no longer trying to learn basic mathematics.
 
  • #23
AUMathTutor said:
I think some ability is necessary, but not too much. You should know how to go through the algorithms with pencil and paper... but in your head? I would say only order-of-magnitude calculations need to be done in your head, and those should be easy anyway (if they're not, you're doing something wrong).

They do still teach the arithmetic algorithms in schools nowadays, yes?

As a reminder, xxChrisxx already told us that the skill was great to have when he was a bartender (see a few posts back).
 
  • #24
Bartender? Don't you mean "Drink Engineer"?
 
  • #25
Weakness in mental arithmetic definitely does not equal weakness in math. I know plenty of people who are horrible at mental arithmetic (including myself) who are awesome at, well, anything else math related.

I actually had never considered the possibility that mental arithmetic is practice related. I used to be very good at mental arithmetic in elementary school, but once calculators were allowed I began a slow descent into crappiness.
 
  • #26
I agree that weakness in mental arithmetic is not such a big deal, but when I think of mental arithmetic it's like 1782-338, or 23 x 10.7. Something like 7+4, I don't know, that might be the point where you should start worrying. I'd definitely work on that if I were you- it's worth it and you won't be under the control of a mindless calculator anymore.
 
  • #27
My belief is that whatever you can do in your head, do it in your head and don't rely on a calculator.

I consider myself "above average to good" in terms of mental arithmetic, and I don't see that hurting (or helping, for that matter) doing more advanced math problems.
 
  • #28
I might offer what my be a contrary point of view here.

As a student, I likely would have agreed with many of the posters here and supported the ideas that basic arithmetic can be done using a calculator, it's trivial and you don't need to worry about it. But I would be curious to know if professional engineers hold this opinion.

At the end of the day, it's often the numbers that matter. In my profession it directly translates into the amount of radiation I allow into a patient. For an engineer it would translate into everything from how much weight can a bridge support, to how much heat can an electronic device tolerate before breaking down. These are the factors that you have to sign your name to as a professional.

At the end of the day, sure, just about all of us use a calculator to figure the numbers out. But what happens when you hit the buttons in the wrong order? Or if there's a bug in your code? Part of being a professional is being able to look at what comes out of the machine and recognizing instances when the answer is wrong.
 
  • #29
Alright. Let us suppose I really do need to improve on my arithmetic, but how should I go about? Should I first memorize the basic facts (like 7+4=11) before I move on and deal with bigger numbers, or should I just practice doing many different arithmetic problems in my head and wait for an improvement? I want to ask the posters here: When you think 7+4, does the answer come in an instant or after some counting?
 
  • #30
Juwane said:
Alright. Let us suppose I really do need to improve on my arithmetic, but how should I go about? Should I first memorize the basic facts (like 7+4=11) before I move on and deal with bigger numbers, or should I just practice doing many different arithmetic problems in my head and wait for an improvement? I want to ask the posters here: When you think 7+4, does the answer come in an instant or after some counting?

It comes in an instant, because it is like I said, elemenatal. These types of problems should be memorized. As to how to go about doing that, I already recommended a method a few posts back.

Anything like 4x3 or 6x7 or 9x9 or 9-5 or 7+6... should be memorized. The answers should be easily used in harder calculations, like 96 x 97 for instance.

It is necessary to memorize these. Don't rely on technology to know the answer, know it yourself.

Always remember this retorical question:

Who invented the calculator?
Man did.
 
  • #31
I know just what you need:

Secrets of Mental Math: The Mathemagician's Guide to Lightning Calculation and Amazing Math Tricks
Practice practice practice!
 
  • #32
Juwane said:
Alright. Let us suppose I really do need to improve on my arithmetic, but how should I go about? Should I first memorize the basic facts (like 7+4=11) before I move on and deal with bigger numbers, or should I just practice doing many different arithmetic problems in my head and wait for an improvement? I want to ask the posters here: When you think 7+4, does the answer come in an instant or after some counting?

i'm sure many people just memorize certain outcomes through experience, but i memorize patterns in the numbers. i haven't read any books about speed math or anything, but knowing and recognizing patterns in numbers often allow me to calculate answers from decimals to relatively large numbers.

i think a good place to start is while doing problems, just try to think of the answer before going to the calculator, then verify after.
 
  • #33
Honestly I wouldn't worry about mental math so much if all you're doing is reviewing for a test. I can't do mental arithmetic all that well (though I can do 4+7), and I got an undergrad degree in math. As Choppy said, the numbers are often the thing that matter, so you may want to eventually get better at this. But if you're just studying for some exam, I personally wouldn't worry about it at the moment.
 
  • #34
Juwane said:
Alright. Let us suppose I really do need to improve on my arithmetic, but how should I go about? Should I first memorize the basic facts (like 7+4=11) before I move on and deal with bigger numbers, or should I just practice doing many different arithmetic problems in my head and wait for an improvement? I want to ask the posters here: When you think 7+4, does the answer come in an instant or after some counting?

A person should know the basic facts by about the end of second grade (about the age of 7 years old) for Addition, and about fourth grade for Multiplication.

After that, a person still might have some trouble with Division and Fractions, but these can still be studied and improvements made.
 
  • #35
Who said you need math for engineering? There are plenty of bridges ready to fall down around my city! :D
 

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