Question:

Let a, b, c be distinct digits. Consider a two digit number ‘ab’ and a three digit number ‘ccb’, both defined under the usual decimal number system. If $(ab)^2$ = ccb and ccb < 300, then the value of b is

Updated On: Jan 13, 2026

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The Correct Option is D

Let's break down the problem step by step to find the value of $ b $.

We are given:

Since $ ab $ is a two-digit number, $ ab = 10a + b $.

The number $ ccb $ is written in expanded form as $ 100c + 10c + b = 110c + b $.

Given that $ (ab)^2 = ccb $, we have the equation:

$(10a + b)^2 = 110c + b$

Since $ ccb < 300 $, it implies:

The number can be 100 to 299, so $ c $ can be at most 2 (as $ 110 \times 3 = 330 $ which is greater than 300).
This means $ c $ can be 1 or 2.

When $ c = 1 $:
- The number becomes $ ccb = 110 \times 1 + b = 110 + b $.
- Then, $(10a + b)^2 = 110 + b$.
- Solving: $(10a + b)^2 = 110 + b$.
- Simplifying, $(10a + b)^2 - b = 110$.
- Testing small values for $ a $ and corresponding $ b $.
When $ c = 2 $:
- The number becomes $ ccb = 110 \times 2 + b = 220 + b $.
- Then, $(10a + b)^2 = 220 + b$.
- Simplifying, $(10a + b)^2 - b = 220$.
- We find $(ab)$ such that $(ab)^2 = 245$. Run trials to find values of $ a $ and $ b $.

Let's compute specific values:

If $ c = 1 $: $ (ab)^2 - b = 110 $ leads us by trials towards $ ab = 11$ which gives $ 121 $ not fitting.
If $ c = 2 $: We compute to find a result fitting $ (ab)^2 = 245 $ leading us by trials towards $(ab) = 15$.

Using the correct $ ab = 15 $, we confirm $ 15^2 = 225 $, matching the expanded form $ 220 + 5 $.

Conclusion: The correct digit for $ b $ ensuring the number ccb satisfies the original conditions is:

The value of $ b $ is 5.

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