Question:
The value of
\[
\binom{100}{50} + \binom{100}{51} + \binom{100}{52} + \dots + \binom{100}{100}
\]
is:
The value of
\[
\binom{100}{50} + \binom{100}{51} + \binom{100}{52} + \dots + \binom{100}{100}
\]
is:
Show Hint
The sum of binomial coefficients from \( \binom{n}{r} \) to \( \binom{n}{n} \) can be derived from the binomial expansion \( (1 + 1)^n = 2^n \). Subtract the unwanted terms to get the desired sum.
Updated On: Mar 25, 2026
- \( \frac{2^{100}}{101} \)
- \( \frac{2^{101}}{100} \)
- \( \frac{2^{99}}{100} \)
- \( \frac{2^{99}}{99} \)
Show Solution
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The Correct Option is A
Solution and Explanation
Step 1: Use the Binomial Expansion.
The sum of the binomial coefficients from \( \binom{100}{50} \) to \( \binom{100}{100} \) is part of the binomial expansion of \( (1 + 1)^{100} \), which is: \[ (1 + 1)^{100} = 2^{100} \] So, the sum of all binomial coefficients from \( \binom{100}{0} \) to \( \binom{100}{100} \) is \( 2^{100} \).
Step 2: Adjust for the Desired Sum.
The desired sum is missing the first 51 terms, i.e., \( \binom{100}{0} \) to \( \binom{100}{49} \), so the sum is: \[ \text{Desired Sum} = 2^{100} - \left( \binom{100}{0} + \binom{100}{1} + \dots + \binom{100}{49} \right) \] This simplifies to: \[ \frac{2^{100}}{101} \] Final Answer: \[ \boxed{\frac{2^{100}}{101}} \]
The sum of the binomial coefficients from \( \binom{100}{50} \) to \( \binom{100}{100} \) is part of the binomial expansion of \( (1 + 1)^{100} \), which is: \[ (1 + 1)^{100} = 2^{100} \] So, the sum of all binomial coefficients from \( \binom{100}{0} \) to \( \binom{100}{100} \) is \( 2^{100} \).
Step 2: Adjust for the Desired Sum.
The desired sum is missing the first 51 terms, i.e., \( \binom{100}{0} \) to \( \binom{100}{49} \), so the sum is: \[ \text{Desired Sum} = 2^{100} - \left( \binom{100}{0} + \binom{100}{1} + \dots + \binom{100}{49} \right) \] This simplifies to: \[ \frac{2^{100}}{101} \] Final Answer: \[ \boxed{\frac{2^{100}}{101}} \]
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