Although each person is born with a unique set of genes, when kids are born, it’s impossible to avoid conversations about who they look the most like. And some people are lucky enough to find resemblances to their older ancestors, like a bolt from the blue. With children looking like an exact copy of their parents and grandparents, we’re almost ready to believe that it’s a result of some kind of reincarnation or wizardry.
And while scientists are still scratching their heads about our genes, we at Bright Side simply can’t help but wonder about what miracles nature is really capable of.
1. Princess Diana and her grandmother, Cynthia, made us wonder whether time travel already exists.

2. “A side by side of my 3x great-grandmother and my mother”

3. “I think I might be a clone and no one told me.”

4. This family’s genes are so strong.

5. “My dad and me, 1980 vs 2020”

6. “This is me in the mid-’90s and my son in 2020, not quite the same pose, but I like seeing the similarities!”

7. “My grandmother (1940) and me (2005) — I feel grateful to carry on her lovely genes.”

8. “I think it’s fun to look at my dad at 12 vs me at 12.”

9. “Me vs my mom’s yearbook photo (1977)”

10. “My son at a year old in 2004 and his great-great-grandfather at the same age in 1882”

11. “My whole life people have told me I look just like my mom when she was my age. I never saw it until I found this old picture of my mom.”

12. Nature’s miracles with genes will never cease to amaze us.

13. “My dad and me, both at the age of 14”

14. “Found this old picture of my great-grandma. I was amazed at how much I look like her!”

15. This mom and daughter look almost identical.

16. Seems like sometimes nature works like a 3D printer.

17. This granddaughter has features similar to her grandmother, and they both look so beautiful.

18. “My ancestor from the 1700s next to my dad — apparently my family’s looks haven’t changed much.”

19. “My dad’s mother and me, 70 years apart”

20. This bright smile passed through at least 2 generations.

Bonus: Princess Charlotte and Queen Elizabeth might not look alike, but the princess is surely the queen’s mini-me.

Have you seen this kind of resemblance in real life? Do you know any relatives that look like you?
Preview photo credit JUSTIN TALLIS /AFP / Getty Images, Max Mumby/Indigo / Getty Images Entertainment / Getty Images
Can You Solve This Tricky Math Puzzle
Are you ready to challenge your brain with a fascinating math puzzle? At first glance, the equation in the image may look like a simple addition problem, but there’s a hidden pattern that makes it more complex than you think.
Take a moment to analyze the given equations:
- 9 + 2 = 711
- 14 + 6 = 820
- 17 + 11 = 628
- 12 + 3 = ???
Can you figure out the logic behind these numbers and find the correct answer? Give it a try before scrolling down for the solution!

Common Mistakes People Make When Solving This Puzzle
Many people approach this problem using traditional math rules. Since the equations involve addition, they naturally assume the answer follows basic arithmetic. However, these numbers don’t add up conventionally, leading to confusion.
Here are some common errors people make:
✔ Trying to use standard addition – When adding 9 + 2, the result should be 11, but the puzzle gives 711 instead. Clearly, something else is happening.
✔ Assuming a hidden multiplication or division – Some people think there’s a multiplication or division pattern involved, but that doesn’t explain all the numbers.
Video : if 2+9=711 then find 12+3=??? tricky number Puzzle with answer
✔ Overcomplicating the logic – Sometimes, the best approach is to look for a simple pattern instead of forcing complex mathematical operations.
If you’re stuck, don’t worry! Let’s break it down step by step and uncover the hidden pattern behind these numbers.
Step-by-Step Guide to Solving the Puzzle
To understand the logic behind these equations, let’s analyze how the numbers are structured.
Step 1: Look for a Pattern in the Results
Instead of performing normal addition, let’s break down each result:
- 9 + 2 = 711
- 14 + 6 = 820
- 17 + 11 = 628
Notice that each result consists of three digits. What could these numbers represent?
Step 2: Identify the Hidden Logic
Let’s analyze the relationship between the input numbers and the output:
- The first digit of the result seems to come from the sum of the two numbers.
- The last two digits of the result seem to come from the product of the two numbers.
Let’s verify this theory:
- 9 + 2 = 11, 9 × 2 = 18 → But the result is 711?
- Instead of 18, it looks like the product’s last two digits are considered.
- If we write 11 first, but take only the last two digits of 9 × 2 = 18, we get 711.
- 14 + 6 = 20, 14 × 6 = 84 → The result is 820.
- First part: Sum = 20
- Second part: Product = 84
- The final number is 820 (placing 20 first, followed by 84).
- 17 + 11 = 28, 17 × 11 = 187 → The result is 628.
- First part: Sum = 28
- Second part: Product = 187, taking the last two digits 87
- The final result is 628.
Step 3: Apply the Logic to the Missing Equation
Now, let’s use this pattern to solve 12 + 3 = ???
- Sum:
- 12 + 3 = 15
- Product:
- 12 × 3 = 36
- Final Answer:
- By following the discovered pattern, we place the sum first, followed by the last two digits of the product:
- 12 + 3 = 915
Final Answer: 915
So, the correct answer to the puzzle is 915!
Conclusion: Challenge Your Brain with More Puzzles
Did you figure out the pattern on your own, or did you need a hint? Either way, this puzzle is a great example of how thinking outside the box can help solve seemingly tricky problems.
Video : Math Puzzles With Answers Only Genius Can Answer
👉 Drop a comment below and let us know how long it took you to solve it!
👉 Share this puzzle with your friends and challenge them—can they solve it faster than you did?
👉 Try more brain teasers to improve your problem-solving skills and have fun while exercising your brain!
Math puzzles like these are excellent for boosting logical thinking and pattern recognition. Keep challenging yourself, and you’ll soon become a master at spotting hidden logic!
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