A blockchain-based business received consensus validation via two different systems A and B. The time between typical day is known to be exponentially distributed with a mean of 3.2 seconds. Both systems operate independ Given the above distribution, the probability that no validation will be received from system A in a 5-second peric in 4 decimal places). Likewise, the probability that no validation will be received from both systems in a 5-second period is 0.0439 places).

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A blockchain-based business received consensus validation via two different systems A and B. The time between validations for each validation system in a typical day is known to be exponentially distributed with a mean of 3.2 seconds. Both systems operate independently. Given the above distribution, the probability that no validation will be received from system A in a 5-second period is 0.2096 (expressed your answer in 4 decimal places). Likewise, the probability that no validation will be received from both systems in a 5-second period is 0.0439 (expressed your answer in 4 decimal places). If X denotes the number of validations in a 5-second interval. Then, X is a Poisson random variable with the lambda is equal to 1.5625 (expressed your answer in 4 decimal places). Then, the probability that both systems receive two validations between 10 and 15 seconds after the site is officially open for business is 0.0655 (expressed in 4 decimal places).