Question about the rounding off rule.

  • Thread starter Thread starter Yashbhatt
  • Start date Start date
AI Thread Summary
The discussion centers on the Banker's Rule for rounding numbers that end in 5, which states that if the preceding digit is odd, it is increased by 1, while if it is even, it remains unchanged. This method is applied to prevent biased rounding, as consistently rounding up can skew results upwards over time. By rounding to the nearest even digit, the rule aims to balance out rounding effects. Participants acknowledge the importance of this rule in achieving more accurate statistical outcomes. Understanding this rounding method is crucial for precise calculations in finance and statistics.
Yashbhatt
Messages
348
Reaction score
13
There is a specific rule(Banker's Rule I think) for rounding of numbers that end in 5. The rule is that we add 1 to the preceding digit of it's odd but keep it as it is if it's even. It's always keeping it even.

Why is this rule applied? I read something like it is done to prevent biased rounding off our something.
 
Mathematics news on Phys.org
Yes, in the long run rounding up if the next digit is a five or more will bias the result upwards. Rounding to an even digit will tend to even this out.
 
Ok. Thanks.
 

Thread 'Trigonometry problem of interest'

Seemingly by some mathematical coincidence, a hexagon of sides 2,2,7,7, 11, and 11 can be inscribed in a circle of radius 7. The other day I saw a math problem on line, which they said came from a Polish Olympiad, where you compute the length x of the 3rd side which is the same as the radius, so that the sides of length 2,x, and 11 are inscribed on the arc of a semi-circle. The law of cosines applied twice gives the answer for x of exactly 7, but the arithmetic is so complex that the...
View full post »
Thread 'Imaginary Pythagoras'

Thread 'Imaginary Pythagoras'

I posted this in the Lame Math thread, but it's got me thinking. Is there any validity to this? Or is it really just a mathematical trick? Naively, I see that i2 + plus 12 does equal zero2. But does this have a meaning? I know one can treat the imaginary number line as just another axis like the reals, but does that mean this does represent a triangle in the complex plane with a hypotenuse of length zero? Ibix offered a rendering of the diagram using what I assume is matrix* notation...
View full post »

Thread 'Fermat's Last Theorem'

Fermat's Last Theorem has long been one of the most famous mathematical problems, and is now one of the most famous theorems. It simply states that the equation $$ a^n+b^n=c^n $$ has no solutions with positive integers if ##n>2.## It was named after Pierre de Fermat (1607-1665). The problem itself stems from the book Arithmetica by Diophantus of Alexandria. It gained popularity because Fermat noted in his copy "Cubum autem in duos cubos, aut quadratoquadratum in duos quadratoquadratos, et...
View full post »

Similar threads

B Death Rally: an intricate probability problem?
Replies
8
Views
2K
B Which probability calculation is "more correct" in Baccarat games?
Replies
9
Views
5K
MHB How to Calculate Percent Correct: 87.5% - Understanding Decimals and Rounding
Replies
12
Views
3K
B Baccarat math and beating the edge
Replies
1
Views
1K
Number Precision When Adding/Subtracting
Replies
8
Views
9K
I Born rule as an axiom or as a theorem?
Replies
7
Views
3K
I Roulette system -- which optimization is better?
Replies
11
Views
4K
Unsensible Rules/Laws of negative number operations
Replies
29
Views
3K
MHB What rule is used to receive number 1
Replies
2
Views
2K
A question on palindromic primes
Replies
2
Views
1K

Hot Threads

Recent Insights

Back
Top