[Blindmath] Standard Deviation Question
Ramana Polavarapu
sriramana at gmail.com
Sat Nov 1 21:56:01 UTC 2014
Obviously, there are better statisticians than I am on this group.
Joseph has answered your question. The main thing is to figure out
the area under the curve equal to 90%. Here is my thinking:
1. She is better than 90%.
2. If she hits the mean (4.2), she is better than 50%.
3. We need to get rid of 40% below (left of) mean.
4. By looking at the tables, you can figure out 1.28 standard
deviations equal to 40%.
5. The answer should be 4.2 - 1.28 times .6.
I have looked at the following web site to get this answer:
http://www.dummies.com/how-to/content/how-to-find-a-percentile-for-a-normal-distribution.html
Look at the fish example mentioned there.
Thank you.
Regards,
Ramana
On 11/2/14, Joseph Lee via Blindmath <blindmath at nfbnet.org> wrote:
> Hi,
> I think you meant 4.2, not 4.52. If it was 4.52, then two standard
> deviations must be 3.32-5.72. Also, faster than 95% implies that Sally's
> time should be shorter (3.0-3.32). In reality, Sally's time is:
> 4.52 (or 4.2) - (sigma of 1.95 * 0.6).
> As a normal distribution is shaped like a bell (really a cone with a smooth
> U at the top) with an imaginary line running down the center of it, a
> standard deviation measures how data is spread out on the center of the
> bell. Thus, one standard deviation will denote data range between top 16%
> to
> bottom 16%, two standard deviation measures from top 2.5% to bottom 2.5%
> and
> so on (what I mean by "top" and "bottom" are really left and right sides;
> so
> half of a data that lies within one standard deviation will be on the
> immediate left of the center line). The concept of normal distribution and
> the bell curve shows up again when a student studies about inference and
> standard error.
> Cheers,
> Joseph
>
> -----Original Message-----
> From: Blindmath [mailto:blindmath-bounces at nfbnet.org] On Behalf Of Sarah
> Jevnikar via Blindmath
> Sent: Saturday, November 1, 2014 2:05 PM
> To: 'Blind Math list for those interested in mathematics'
> Subject: [Blindmath] Standard Deviation Question
>
> Hi all,
> I'm helping a friend out with stats homework, but I can't remember the
> specifics of a normal distribution and don't have a tactile diagram handy.
> I'm wondering if someone could help me fill in the gaps.
>
> The question reads:
> "The average swim time for a 200m race was 4.52min with a standard
> deviation
> of .60min. Sally swam faster than 95% of her competitors in the race. What
> was Sally's race time?"
>
> My thinking was as follows:
> The standard deviation of 0.6 min and the six sigma rule that states 68% of
> data is in the first sd, 95 in the second, and 99 in the 3rd, should apply.
> This would mean that 68% of swimmers would have times between 3.6 and 4.8.
> Then 95% of swimmers should have times between 3.0 and 5.4. If sally is
> faster than 95% of swimmers, would this make her time 5.4? I'm thinking not
> but I'm not sure what I'm missing.
> Thank you as always for your help,
> Sarah
>
>
> _______________________________________________
> Blindmath mailing list
> Blindmath at nfbnet.org
> http://nfbnet.org/mailman/listinfo/blindmath_nfbnet.org
> To unsubscribe, change your list options or get your account info for
> Blindmath:
> http://nfbnet.org/mailman/options/blindmath_nfbnet.org/joseph.lee22590%40gma
> il.com
> BlindMath Gems can be found at
> <http://www.blindscience.org/blindmath-gems-home>
>
>
> _______________________________________________
> Blindmath mailing list
> Blindmath at nfbnet.org
> http://nfbnet.org/mailman/listinfo/blindmath_nfbnet.org
> To unsubscribe, change your list options or get your account info for
> Blindmath:
> http://nfbnet.org/mailman/options/blindmath_nfbnet.org/sriramana%40gmail.com
> BlindMath Gems can be found at
> <http://www.blindscience.org/blindmath-gems-home>
>
More information about the BlindMath
mailing list