Accuracy CalculatorBayes’ Theorem CalculatorBertrand’s Box ParadoxBertrand’s ParadoxBirthday Paradox CalculatorBoy or Girl ParadoxChebyshev’s Theorem CalculatorCoin Flip Probability CalculatorCoin Toss Streak CalculatorCombination CalculatorConditional Probability CalculatorConfusion Matrix CalculatorDice Average CalculatorDice Probability CalculatorDice Roller CalculatorExpected Value CalculatorFalse Positive Paradox CalculatorImplied Probability CalculatorLottery CalculatorMonty Hall Problem CalculatorOdds CalculatorParrondo’s Paradox CalculatorPassword Combination CalculatorPermutation CalculatorP-Hat CalculatorPost-Test Probability CalculatorProbability CalculatorProbability of 3 Events CalculatorRandom Number GeneratorRelative Risk CalculatorRisk CalculatorRoulette Payout CalculatorSensitivity and Specificity CalculatorTwo Envelopes Paradox Calculator

Unveiling the Formula

Embark on a journey through Chebyshev’s theorem with our user-friendly calculator. Here, we decipher the mathematical marvel behind two similar yet distinct formulas. Dive into the notation:

  • P: Probability of an event (specified within brackets).
  • X: Random variable describing our experiment (e.g., the count of sixes in dice rolls).
  • E(X): Expected value of our event.
  • σ²: Variance, showcasing the event’s potential divergence.
  • k: Boundary of the result, indicating how far we expect to deviate.

Formula Insights:

  1. Probability of X deviating from E(X) by at least k is at most σ² / k².
  2. Probability of X deviating from E(X) by at least k × σ is at most 1 / k².

Unraveling Chebyshev’s Rule

Pafnuty Chebyshev, a Russian mathematician, guides us through the realm of probability. Imagine flipping a coin a hundred times – if heads have a 0.5 probability, obtaining close to 50 heads seems likely. This informal definition aligns with the expected value (E(X)), indicating typical outcomes.

Probability Precision: Chebyshev’s theorem asserts that extreme results are unlikely. For instance, obtaining 25 heads in 100 coin tosses has a probability of at most 4%, and for 10 heads, it drops to 1.56%.

Navigating Chebyshev’s Inequality

1. The Magic Trick Example

Picture yourself as “Chebyshev the Magnificent,” impressing with a card magic trick. Pulling 20 cards, claiming at least ten clubs, involves calculated risk:

  • X: Number of pulled club cards.
  • E(X): Expected clubs (20 × 1/4 = 5).
  • k: Deviation from expected (10 – 5 = 5).
  • σ²: Variance = 20 × 1/4 × 3/4 = 3.75.

According to Chebyshev’s formula, the probability is at most 15%, making the trick a risky bet.

2. Betting on Basketball Scores

Imagine betting on a basketball team scoring between 60 and 80 points, with an expected value around 70. Adjusting Chebyshev’s formula for proximity:

  • k: Deviation limit (e.g., 11 points).
  • σ²: Variance (e.g., 20).

The probability of staying within the desired range is at least 83%, suggesting a favorable bet.

Pros and Cons

Chebyshev’s rule aids in assessing the likelihood of events but has limitations. If the right-side fraction exceeds one, it simply indicates a maximum probability of 100%, offering a binary outcome.

In summary, Chebyshev’s theorem guides us through the maze of probability, unveiling the magic behind expected values and calculated risks. So, whether you’re a mathematician or a magic enthusiast, Chebyshev has something intriguing for you!

A: The probability in Bertrand’s paradox is not precisely defined without specifying the chord sampling method. The original question, regarding the probability of a random chord being longer than the triangle’s side, requires additional details for a definitive answer.