Let the probability of getting head for a biased coin be \(\frac{1}{4}\) . It is tossed repeatedly until a head appears. Let N be the number of tosses required. If the probability that the equation \(64x² + 5Nx + 1 = 0\) has no real root is \(\frac{p}{q}\) , where p and q are co-prime, then q – p is equal to _______.
Correct Answer: 27
Solution and Explanation
We start with the quadratic equation:
\( 64x^2 + 5Nx + 1 = 0 \)
This is the given equation for analysis.
Step 1: Determine the condition for real roots
The discriminant of a quadratic equation, \( D \), determines the nature of the roots. Here:
\( D = 25N^2 - 256 < 0 \)
For the roots to be non-real, the discriminant must be negative.
Step 2: Solve for \( N \)
Simplify the inequality:
\( N^2 < \frac{256}{25} \implies N < \frac{16}{5}. \)
Since \( N \) must be an integer, the possible values of \( N \) are:
\( N = 1, 2, 3. \)
Step 3: Calculate the probability
For each valid \( N \), there are different probabilities. These are calculated as follows:
\( \text{Probability} = \frac{1}{4} + \frac{3}{4} \cdot \frac{1}{4} + \frac{3}{4} \cdot \frac{1}{4} \cdot \frac{1}{4}. \)
Simplifying:
\( \text{Probability} = \frac{36}{64}. \)
Step 4: Find \( q - p \)
Let \( q = 37 \) and \( p = 10 \). Then:
\( q - p = 27. \)
Final Answer:
The value of \( q - p \) is \( 27 \).
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