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Introduction to Basic Statistics

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Sample statistics vs. population parameters for defining the characteristics. ... Descriptive statistics: Describe the population in terms of key characteristics. ... – PowerPoint PPT presentation

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Title: Introduction to Basic Statistics


1
Topic 6
Marketing Analysis Research (MAR3613) By
Kanghyun Yoon
  • Introduction to Basic Statistics

2
Importance of Sampling (I)
  • Why is the sampling procedure important?
  • To make conclusions about the whole population
    (e.g., estimating some unknown characteristic of
    the population) by using a subset (e.g., sample)
    of the population.
  • Example Use point or interval estimates (e.g.,
    confidence intervals) to estimate population
    parameters.
  • Population vs. Sample
  • Population or universe The entire group that
    shares some common set of characteristics (e.g.,
    people, sales territories, stores, students,
    etc.).
  • It is important to prepare a sampling frame.
  • Sample A subset of all the elements in the
    population.
  • Census An investigation of all the individual
    elements in the population.
  • It is useful for industrial product.
  • Sample statistics vs. population parameters for
    defining the characteristics.
  • Population parameters N, m, s, p (or p)
  • Sample statistics n, x-bar, s, p-hat

3
Importance of Sampling (II)
  • Two Purposes of Sampling
  • Descriptive statistics Describe the population
    in terms of key characteristics.
  • Use frequency distribution, measures of central
    tendency, and measures of dispersion (or spread).
  • Inferential statistics Make inferences about the
    characteristics of population.
  • Implement hypothesis testing procedure.
  • Important Terminologies
  • Frequency distribution A summary table that
    describes the number of times that a particular
    value of a variable occurs (e.g., histogram).
  • Example One-way frequency table, two-way
    crosstabulation, and so on.
  • Measures of central tendency It indicates the
    center of the frequency distribution.
  • Example The mean, median (e.g., the mid-point),
    and mode.
  • Measures of dispersion It indicates how far each
    observation departs from the center of the
    frequency distribution.
  • Example The range, variance, and standard
    deviation.

4
Importance of Sampling (III)
  • Three Types of Distributions
  • Population distribution A frequency distribution
    constructed by using all the elements in the
    population.
  • Sample distribution A frequency distribution
    constructed by using all the elements in the
    sample.
  • Sampling distribution of the sample mean A
    theoretical probability distribution that uses
    sample means for all possible samples of a
    certain size drawn from a particular population.
  • Central Limit Theorem
  • As sample size increases, the distribution of
    sample means of size n approaches a normal
    distribution with a mean equal to ? and a
    standard deviation equal to s/vn.

5
Relationship Among Distributions
6
Normal Distribution
  • Normal Distribution
  • It is symmetrical and bell-shaped around its
    mean.
  • The highest point indicates the mean, the median,
    and the mode.
  • The area under the curve has a probability
    density to equal to one.
  • Standardized Normal Distribution (SND)
  • Key features it has a mean of zero and a
    standard deviation of one.
  • About 68.26 of the observations will fall within
    one standard deviation of the mean.
  • About 95.44 of the observations will fall within
    two standard deviation of the mean.
  • Almost all of the observations (e.g., 99.9) will
    fall within three standard deviation of the mean.
  • How to Transform Normal Distribution into SND?
  • How to get the standardized normal distribution
    (e.g., z distribution)?
  • Formula Z-score (Xi µ) / s.

7
Linear Transformation
s
s
m
X
m
Sometimes the scale is stretched
Sometimes the scale is shrunk
-2 -1 0 1 2
8
Basics to Hypothesis Testing
  • Regarding Inferential Statistics
  • Estimate the shape of population distribution
    using the sample information.
  • Compare two frequency distributions of both the
    sample and the population.
  • Estimate the central tendency of the population
    using the sample information.
  • Utilize the point estimates or the confidence
    interval as of the interval estimates.
  • Estimate the degree of dispersion of the
    population using the sample information.
  • Compare both dispersion measures of the
    population and the sample.
  • Hypothesis testing procedure is necessary.
  • Point estimates vs. Interval estimates
  • Point estimate It is an estimate of the
    population mean in the form of the sample mean.
  • Interval estimate We use the confidence interval
    by using the following formula
  • µ X-bar Random Error x-bar Z-score
    standard error of the mean (s/vn).

9
Basics to Hypothesis Testing
  • Why hypothesis testing procedure is required?
  • Hypothesis is an assumption about the
    characteristics of the population being
    investigated.
  • The researcher should determine whether a
    hypothesis regarding the characteristics of the
    population is likely to be true, by using the
    sample information, given an objective decision
    rule.
  • An objective decision rule is related to the
    concept of statistical difference.
  • Mathematical difference vs. statistical
    significance
  • Consider the following equation Sales a0 b1
    Advertising
  • H0 b1 0
  • H1 b1 ? 0
  • Is the observed difference (e.g., between b10.0
    in the population and b12.0 in the sample)
    likely to occur due to sampling error (e.g., by
    chance) or occur since b1 has 2.0 actually in the
    population?
  • Key statistical concepts for an objective
    decision rule
  • Null hypothesis (H0) vs. alternative hypothesis
    (H1 or Ha)
  • Sample test statistics vs. critical value, given
    the choice of sampling distribution
  • P-value vs. significance level of a ( critical
    region)
  • Confidence level The probability that a
    particular interval (e.g., confidence interval as
    an interval estimate) will include the true
    population value.

10
Basics to Hypothesis Testing
  • Types of Sampling Distributions and Test
    Statistics
  • Normal distribution when Z test statistic lies
    between negative and positive infinity (-? ? Z ?
    ?).
  • Use Z test statistics in comparison of one-sample
    distribution or two-sample distributions.
  • t distribution when t test statistic lies
    between negative and positive infinity (-? ? t ?
    ?).
  • Use t test statistics in t-test analysis or
    regression analysis.
  • F distribution when F test statistic (e.g.,
    the proportion) lies between zero and positive
    infinity (0 ? F ? ?).
  • Use F test statistics in ANOVA analysis or
    regression analysis.
  • Chi-Square (?2) distribution when chi-square
    test statistic (e.g., the square) lies between
    zero and positive infinity (0 ? ?2 ? ?).
  • Use ?2 test statistics in frequency analysis or
    cross-tabulation analysis for chi-square test.
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