The post Why is it that 2+2=5. Two plus two equals five and other math tricks appeared first on Nucleoid.

]]>In order to make things even more interesting, the invalid steps are mixed in with valid steps, as to disorient the person trying to follow the logic of operations. These invalid steps may involve stealthy dividing by zero, like for example by incorrectly extracting a root, or, more common, when different values of a multiple valued function end up equated.

The most famous and popular example of an invalid proof is the teachers’ favorite * 2 + 2 = 5. *First we’ll present the whole invalid proof and then we’ll dissect it to see where the trick is:

2+2=2+2

(2+2)-5=(2+2)-5

-10-10=-10-10

-20=-20

16-36=25-45

16-36+81/4=25-45+81/4

(a-b)^2=a^2-2ab+b^2

16-36+81/4=(4-9/2)^2

25-45+81/4=(5-9/2)^2

(4-9/2)^2=(5-9/2)^2

4-9/2=5-9/2

4=5-9/2+9/2

4=5

2+2=5

Let’s take a closer look:

2+2 = 2+2Let’s multiply both sides by -5(2+2)-5 = (2+2)-5-10-10 = -10-10-20 = -20Now let’s factor each number16-36 = 25-45We add 81/4 to each side16-36+81/4 = 25-45+81/4As we can see these are squares(a-b)^{2}= a^{2}-2ab+b^{2}

16-36+81/4 = (4-9/2)^{2}

25-45+81/4 = (5-9/2)^{2}

(4-9/2)^{2}= (5-9/2)^{2}Let’s cancel the squares4-(9/2) = 5-(9/2)We move -9/2 to the other side of the equation4 = 5-9/2+9/2

As we can see -9/2+9/2 = 0 so:4 = 5Tada!2+2 = 5

Have you detected it? It’s not tricky if you your basic rules of algebra. The mistake is here:

(4-9/2)^{2}= (5-9/2)^{2}Let’s cancel the squares4-9/2 = 5-9/2

We just cannot cancel these squares because the square root of any number to the power of two is a **module** of said number!. The proper way of doing it would be:

(4-9/2)^{2}= (5-9/2)^{2}

| 4-9/2 | = | 5-9/2 |

| -0,5 | = | 0,5 |

0,5 = 0,5

As we can see a completely different outcome, and with this outcome we maintain the arithmetic equality in both sides!

It’s origin isn’t really clear. Some say it dates back to **Pythagoras** era, but we know for sure that the one who popularized it was **Fibonacci** in the 13th century, who, after studying the euclidean principles proclaimed that “It’s probable that 2 + 2 is closer to 5 than 4”. He tried for years to came up with a demonstration for this, but was unable to do so.

Nonetheless, we can trace the origins of the modern interpretation of this invalid proof to **Riemann**, who “proved” that 2+2=5. Another great mathematician, the legendary **Gauss**, also “proved” that 2+2=3.

Finally, **Gottlob Frege** was also one of the mathematicians who got involved in trying to demonstrate that 2+2=5

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