In designing an electrical circuit, a probability density function is needed to b integrated to determine the confidence interval. For an oscillator to have its frequency within 5% of the target: of 1 kHz, the likelihood of this happening can then be determined by finding the total area under the normal distribution for the range in question. This is given in the form: f(x) = 1 exp 2 dx Use a 3rd order Romberg’s integration to find this frequency with.xo = -2.288 and x= 3.452.

In designing an electrical circuit, a probability density function is needed to b integrated to determine the confidence interval. For an oscillator to have its frequency within 5% of the target: of 1 kHz, the likelihood of this happening can then be determined by finding the total area under the normal distribution for the range in question. This is given in the form: f(x) = 1 exp 2 dx Use a 3rd order Romberg’s integration to find this frequency with.xo = -2.288 and x= 3.452.

Algebra & Trigonometry with Analytic Geometry

13th Edition

ISBN:9781133382119

Author:Swokowski

Publisher:Swokowski

Chapter7: Analytic Trigonometry

Section7.6: The Inverse Trigonometric Functions

Problem 91E

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