Презентация Introduction to Statistics онлайн
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Презентации » Математика » Introduction to Statistics
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- Тип файла:ppt / pptx (powerpoint)
- Всего слайдов:39 слайдов
- Для класса:1,2,3,4,5,6,7,8,9,10,11
- Размер файла:2.30 MB
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Слайды и текст к этой презентации:
№3 слайд
Содержание слайда: Why study statistics?
Without statistics we couldn't plan our budgets, pay our taxes, enjoy games...
Let's take a look at the most basic form of statistics, known as descriptive statistics. This branch of statistics lays the foundation for all statistical knowledge, but it is not something that you should learn simply so you can use it in the distant future. Descriptive statistics can be used NOW, in English class, in physics class, in history, at the football stadium, in the grocery store. You probably already know more about these statistics than you think.
№4 слайд
Содержание слайда: Why study statistics?
Data are everywhere
Statistical techniques are used to make many decisions that affect our lives
No matter what your career, you will make professional decisions that involve data. An understanding of statistical methods will help you make these decisions efectively
№5 слайд
Содержание слайда: Applications of statistical concepts in the business world
Finance – correlation and regression, index numbers, time series analysis
Marketing – hypothesis testing, chi-square tests, nonparametric statistics
Personel – hypothesis testing, chi-square tests, nonparametric tests
Operating management – hypothesis testing, estimation, analysis of variance, time series analysis
№7 слайд
Содержание слайда: Types of statistics
Descriptive statistics – Methods of organizing, summarizing, and presenting data in an informative way
Inferential statistics – The methods used to determine something about a population on the basis of a sample
Population –The entire set of individuals or objects of interest or the measurements obtained from all individuals or objects of interest
Sample – A portion, or part, of the population of interest
№10 слайд
Содержание слайда: Sampling
a sample should have the same characteristics
as the population it is representing.
Sampling can be:
with replacement: a member of the population may be chosen more than once (picking the candy from the bowl)
without replacement: a member of the population may be chosen only once (lottery ticket)
№11 слайд
Содержание слайда: Sampling methods
Sampling methods can be:
random (each member of the population has an equal chance of being selected)
nonrandom
The actual process of sampling causes sampling
errors. For example, the sample may not be large
enough or representative of the population. Factors not
related to the sampling process cause nonsampling
errors. A defective counting device can cause a
nonsampling error.
№12 слайд
Содержание слайда: Random sampling methods
simple random sample (each sample of the same size has an equal chance of being selected)
stratified sample (divide the population into groups called strata and then take a sample from each stratum)
cluster sample (divide the population into strata and then randomly select some of the strata. All the members from these strata are in the cluster sample.)
systematic sample (randomly select a starting point and take every n-th piece of data from a listing of the population)
№14 слайд
Содержание слайда: Statistical data
The collection of data that are relevant to the problem being studied is commonly the most difficult, expensive, and time-consuming part of the entire research project.
Statistical data are usually obtained by counting or measuring items.
Primary data are collected specifically for the analysis desired
Secondary data have already been compiled and are available for statistical analysis
A variable is an item of interest that can take on many different numerical values.
A constant has a fixed numerical value.
№15 слайд
Содержание слайда: Data
Statistical data are usually obtained by counting or measuring items. Most data can be put into the following categories:
qualitative - data are measurements that each fail into one of several categories. (hair color, ethnic groups and other attributes of the population)
quantitative - data are observations that are measured on a numerical scale (distance traveled to college, number of children in a family, etc.)
№16 слайд
Содержание слайда: Qualitative data
Qualitative data are generally described by words or
letters. They are not as widely used as quantitative data
because many numerical techniques do not apply to the
qualitative data. For example, it does not make sense to
find an average hair color or blood type.
Qualitative data can be separated into two subgroups:
dichotomic (if it takes the form of a word with two options (gender - male or female)
polynomic (if it takes the form of a word with more than two options (education - primary school, secondary school and university).
№17 слайд
Содержание слайда: Quantitative data
Quantitative data are always numbers and are the
result of counting or measuring attributes of a population.
Quantitative data can be separated into two
subgroups:
discrete (if it is the result of counting (the number of students of a given ethnic group in a class, the number of books on a shelf, ...)
continuous (if it is the result of measuring (distance traveled, weight of luggage, …)
№19 слайд
Содержание слайда: Numerical scale of measurement:
Nominal – consist of categories in each of which the number of respective observations is recorded. The categories are in no logical order and have no particular relationship. The categories are said to be mutually exclusive since an individual, object, or measurement can be included in only one of them.
Ordinal – contain more information. Consists of distinct categories in which order is implied. Values in one category are larger or smaller than values in other categories (e.g. rating-excelent, good, fair, poor)
Interval – is a set of numerical measurements in which the distance between numbers is of a known, constant size.
Ratio – consists of numerical measurements where the distance between numbers is of a known, constant size, in addition, there is a nonarbitrary zero point.
№21 слайд
Содержание слайда: Numerical presentation of qualitative data
pivot table (qualitative dichotomic statistical attributes)
contingency table (qualitative statistical attributes from which at least one of them is polynomic)
You should know how to convert absolute
values to relative ones (%).
№22 слайд
Содержание слайда: Frequency distributions – numerical presentation of quantitative data
Frequency distribution – shows the frequency, or number of occurences, in each of several categories. Frequency distributions are used to summarize large volumes of data values.
When the raw data are measured on a qunatitative scale, either interval or ration, categories or classes must be designed for the data values before a frequency distribution can be formulated.
№23 слайд
Содержание слайда: Steps for constructing a frequency distribution
Determine the number of classes
Determine the size of each class
Determine the starting point for the first class
Tally the number of values that occur in each class
Prepare a table of the distribution using actual counts and/ or percentages (relative frequencies)
№24 слайд
Содержание слайда: Frequency table
absolute frequency “ni” (Data TabData AnalysisHistogram)
relative frequency “fi”
Cumulative frequency distribution shows the total number of occurrences that lie above or below certain key values.
cumulative frequency “Ni”
cumulative relative frequency “Fi”
№28 слайд
Содержание слайда: Frequency polygon
Another common method for graphically presenting interval and ratio data
To construct a frequency polygon mark the frequencies on the vertical axis and the values of the variable being measured on the horizontal axis, as with the histogram.
If the purpose of presenting is comparation with other distributions, the frequency polygon provides a good summary of the data
№30 слайд
Содержание слайда: Ogive
A graph of a cumulative frequency distribution
Ogive is used when one wants to determine how many observations lie above or below a certain value in a distribution.
First cumulative frequency distribution is constructed
Cumulative frequencies are plotted at the upper class limit of each category
Ogive can also be constructed for a relative frequency distribution.
№32 слайд
Содержание слайда: Pie Chart
The pie chart is an effective way of displaying the percentage breakdown of data by category.
Useful if the relative sizes of the data components are to be emphasized
Pie charts also provide an effective way of presenting ratio- or interval-scaled data after they have been organized into categories
№34 слайд
Содержание слайда: Bar chart
Another common method for graphically presenting nominal and ordinal scaled data
One bar is used to represent the frequency for each category
The bars are usually positioned vertically with their bases located on the horizontal axis of the graph
The bars are separated, and this is why such a graph is frequently used for nominal and ordinal data – the separation emphasize the plotting of frequencies for distinct categories
Скачать все slide презентации Introduction to Statistics одним архивом:
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Introduction to Statistics. Week 1 (1)
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Introduction to Statistics. Week 1 (2)
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Statistical data processing
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Development of an information system for evaluating the work of production employees based on statistical analysis
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Statistika II
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Introduction to vectors
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Introductory Statistics 1. AP Statistics
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Probability theory. Probability Distributions Statistical Entropy
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Definition. Statistics
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Hypothesis testing for proportions. Essential statistics