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Applied Statistics and Probability for Engineers: Montgomery
Rating: 4.5 out of 5(8 ratings)
28 students

Applied Statistics and Probability for Engineers: Montgomery

إحصاء ونظريات احتمالات متقدمة
Last updated 4/2026
Arabic

What you'll learn

  • Applied Statistics and Probability for Engineers
  • Point Estimation of Parameters and Sampling Distributions
  • Sampling Distributions and the Central Limit Theorem
  • Statistical Intervals for a Single Sample
  • Confidence Interval on the Mean of a Normal distribution
  • Tests of Hypotheses for a Single Sample
  • Statistical Inference for Two Samples
  • Simple Linear Regression and Correlation
  • Multiple Linear Regression

Course content

11 sections67 lectures23h 37m total length
  • Introduction to Statistics35:55
  • Introduction to Probability Part 1-121:50
  • Counting and Examples Part 1-244:43
  • Probability - Part 2-129:12
  • Probability - Part 2-258:02
  • Discrete Probability Distributions - Part 158:57
  • Discrete Probability Distributions - Part 246:32
  • Mathematical Expectation Random Variable34:22
  • 5-4-1 Negative Binomial7:35
  • 5-4-2 Negative Binomial vs Geometric4:10
  • 5-4-3 Example 5-14 Negative Binomial6:25
  • 5-4-4 Example 5-15 Geometric2:15
  • 6-1 Uniform And Normal Distributions45:19
  • 6-10 Gamma and Expon Dist12:53
  • 6-12 Memoriless Property Expon2:11
  • 6-13 Gamma - Expon - Poisson7:36
  • 6-14 Poisson vs Gamma vs Exponential2:41
  • 6-15 Gamma - Expon - Poisson Ex 6-185:37
  • Cont Prob Distributions - LogNormal10:43
  • Weibul Distribution4:19

Requirements

  • Basics of Statistics and Probabiity

Description

الكورس متوافق مع العديد من الجامعات مثل جامعة الملك عبد العزيز

After careful study of this chapter, you should be able to do the following:

1. Explain the general concepts of estimating the parameters of a population or a probability distribution

2 . Explain the important role of the normal distribution as a sampling distribution and the central limit theorem

3  .Explain important properties of point estimators, including bias, variance, and mean square error

4. Construct point estimators using the method of moments and the method of maximum likelihood.

5. Compute and explain the precision with which a parameter is estimated

6. Construct a point estimator using the Bayesian approach


8- After careful study of this chapter, you should be able to do the following:

1. Construct confidence intervals on the mean of a normal distribution, using normal distribution or t distribution method

2. Construct confidence intervals on the variance and standard deviation of normal distribution

3 . Construct confidence intervals on a population proportion

4. Use a general method for constructing an approximate confidence interval on a parameter

5. Construct a prediction interval for a future observation

6. Construct a tolerance interval for a normal population

7. Explain the three types of interval estimates: confidence intervals, prediction intervals, and tolerance intervals

9- After careful study of this chapter, you should be able to do the following:

1. Structure engineering decision-making problems as hypothesis tests

2. Test hypotheses on the mean of a normal distribution using a Z-test or a t-test

3. Test hypotheses on the variance or standard deviation of a normal distribution

4. Test hypotheses on a population proportion

5. Use the P-value approach for making decisions in hypothesis tests

6. Compute power & Type II error probability and make sample size selection decisions for tests on means, variances and proportions

7.Explain & use the relationship between confidence intervals & hypothesis tests

8. Use the chi-square goodness-of-fit test to check distributional assumptions

9. Apply contingency table tests

10. Apply nonparametric tests

11. Use equivalence testing

12.Combine P-values

10- After careful study of this chapter, you should be able to do the following:

1. Structure comparative experiments involving two samples as hypothesis tests

2. Test hypotheses and construct confidence intervals on the difference in means of two normal distributions

3. Test hypotheses and construct confidence intervals on the ratio of the variances or standard deviations of two normal distributions

4. Test hypotheses and construct confidence intervals on the difference in two population proportions

5. Use the P-value approach for making decisions in hypothesis tests

6. Compute power, Type II error probability, and make sample size decisions for two-sample tests on means, variances & proportions

7. Explain and use the relationship between confidence intervals and hypothesis tests

11- After careful study of this chapter, you should be able to do the following:

1. Use simple linear regression for building empirical models to engineering and scientific data

2. Understand how the method of least squares is used to estimate the parameters in a linear regression model

3. Analyze residuals to determine if the regression model is an adequate fit to the data or to see if any underlying assumptions are violated

4. Test the statistical hypotheses and construct confidence intervals on the regression model parameters

5. Use the regression model to make a prediction of a future observation and construct an appropriate prediction interval on the future observation

6. Apply the correlation model

7. Use simple transformations to achieve a linear regression model

Who this course is for:

  • Engineers
  • Students
  • researchers
  • Scientist