# Move only 2 matchsticks to find the equality

Just move two matchsticks to find the equality in the equation below:

Note: There are two reasonable answers. • Can I add a match, and only move one? – Mithical Jul 14 '16 at 9:48
• @Mithrandir just by moving. – Oray Jul 14 '16 at 9:48
• I can do it by moving one... – Will Jul 14 '16 at 9:55
• Is making a "non-equal" reasonable? :) – Yousend Jul 14 '16 at 12:33
• Move $0$ matches: read it in base $45$. – Jonathan Allan Jul 14 '16 at 13:44

Moving two:

Rotate table 180° Walk around the table and: (matches moved: horizontal bar in the 4, horizontal bar in left 7)

• yes this is what I was looking for and a proper answer :) – Oray Jul 14 '16 at 10:36
• I should have seen this one sooner hahaha – Will Jul 14 '16 at 10:36
• Can you explain what you see on this picture. Because I see 111 = c * 1. – talex Jul 14 '16 at 12:35
• @talex 111 = CXI (Roman numeral for 111) – Will Jul 14 '16 at 12:36
• Isn't rotating the table moving all the matches? – vascowhite Jul 14 '16 at 13:18

Another way moving $2$: i.e. $\frac77=1^4$

Or similarly: i.e $1\times1=1^4$

• Or alternatively, you could use the two sticks to extend the "1" downward, on the RHS, making the 4 look like a proper superscript. – Mark Peters Jul 14 '16 at 16:24

Yet another way moving $2$: i.e $7\times7=IL^I$ using Roman numerals on the right hands side: $IL^I=49^1$

• wow i am impressed, great answer! – Oray Jul 14 '16 at 14:26
• The charts I've seen suggest that subtraction by prefix is only applicable for producing 4, 9, 40, 90, 400, 900, or similar larger values using over-bar notation. The value 49 is properly written as 40+9, (XLIX), not 50-1 (IL). Similarly, 1999 is 1000+900+90+9, (MCMXCIX), not 2000-1 (MIM). – supercat Jul 14 '16 at 18:18
• @supercat yeah you're correct, it's not in the recognised "standard" form of XLIX; but it wasn't standardised until long, long after the Roman empire. IL is nothing other than 49 (in fact there is also evidence of double subtractive notation being used too, such as XIIX for 18, which is even more confusing). – Jonathan Allan Jul 15 '16 at 5:00

Well you can do that by

How

The green line is the moved matchsticks. My drawing is not good, though.

Although, I personally feel that Will seems to have the best solution. We may even do this by removing 2 matches.

Moving either the leftmost or the rightmost matches making up the X to between the two digits 1 and 4 gives 2 different equations using boolean algebra

7>7 = 1 > 4
7<7 = 1 > 4

in both cases

the boolean value of both LHS and RHS simplify to false resulting in the equations simplifying to false = false

i.e. with both sides being equal.

• Welcome to puzzling.SE. Although your answer might seem ok as lateral-thinking, but you need to "find the equality" :) – ABcDexter Jul 15 '16 at 14:57
• I think you need to reread my answer - it is expressed as a logic equation i.e. both the LHS and the RHS are equal To clarify taking the first example LHS expression is 7>7 - this simplifies to FALSE RHS expression 1>4 - this also simplifies to FALSE This means the whole equation simplifies to FALSE = FALSE - and that is the equality – Craig Mitchell Jul 15 '16 at 16:51
• I read you answer thrice before editing. There is no clear evidence that you used any function to calculate the Boolean value of the expressions of both LHS and RHS, which would thus make them equivalent, which is not obvious in your case. And as the saying goes, "The absence of evidence isn't the evidence of absence itself." – ABcDexter Jul 15 '16 at 17:02
• Also, you need to re-read your answer(under "in both cases") and look for the explanation I put in so, False=False is True :) – ABcDexter Jul 15 '16 at 17:05
• I agree with this answer, $False=False$ and $x>y$ is a boolean expression – Jonathan Allan Jul 16 '16 at 23:46

Moving only ONE match:

And rotating 180 degrees: We get 61 = LXI (61 in roman)

I feel like the simplest answer is just to

move the two matches in the equals sign to make it a greater than sign : 7x7 > 14

• This finds an inequality. – Will Jul 14 '16 at 14:09

Make use of the fact that they are matches!
Take the top match of the first digit, making the 7 into a 1.
Add the match you took to somewhere in the last digit.
Then take top of the second digit, making also that 7 into a 1.
But before you also add that match to somwhere in the last digit,
LIGHT THE MATCH, and when the fire is out, you will have:
.
. _ _
. | \/ | _ | |_| INTO | \/ | _ |
. | /\ | _ | | | /\ | _ |

7*7 = 49, we can count in ${\mathbb Z}_{10}$ ( or in normal language "only save last digit" ), and then only move the 2 sticks in the "1" in 14 to make a 9 out of the 4.