Course Overview
ANOVA in Minitab
What is ANOVA
ANOVA stands for Analysis of Variance. It is a statistical method which is used to test the difference between two or more means. It is used to test the specific differences between the means. ANOVA assesses the importance of one or more factors by comparing the variable means at different factor levels. The null hypothesis of ANOVA states that all means are equal and the alternative hypothesis states that at least one is different. Though there are different methods like hypothesis testing, partitioning of a sum of squares and others ANOVA is given the first preference these days. This is because it is easy to compute manually using simple algebra rather than complex calculations.
Uses of ANOVA
There are only two tests which can yield the same results – t-test and ANOVA. The t-test compares the means between two samples and is also easy to conduct. It is not reliable when there are more than two samples to be compared. In such cases, ANOVA becomes more reliable and effective. ANOVA is the most preferred model in the field of pharmaceuticals and medical research because it helps to find out how effective are the two different types of treatment and how durable they are. In particular, ANOVA helps to identify how a particular treatment works and how long it lasts. Another main advantage of using ANOVA is that it can be used even if the number of observations in each group vary. Now a day’s ANOVA is also more commonly used in the field of Agriculture.
What is Minitab
Minitab is a statistical analysis software package which will enable you to enter the data quickly and then perform a different type of analysis on the data. You can enter data into Minitab in the same way as done in an excel. Minitab can make the statistical computations on your data more easy and quick. Minitab provides a quick and effective solution for the level of analysis which is required in most of the Six Sigma projects. Minitab has four different types of ANOVA’s like One Way, Balanced and General Linear Model.
Why Use Minitab
Minitab is more widely used by students and others for statistical analysis than other statistical software. Listed below are the five reasons why Minitab is so popular
- Minitab has an intuitive interface which makes it easy to use for students and instructors
- The commands and menus in Minitab are structured in a way that matches with the textbooks and provides easy guidance to get the output
- Minitab is more affordable as it offers discounts to students and academic institutions
- Minitab is a complete package with a lot of statistical tools so there is no need for special purchase of any add-ons or modules
- Minitab is a statistical software which is used by many of the large companies. By learning Minitab the students are highly exposed to wide range of jobs in world-class companies.
- Minitab serves as a reference for many textbooks and supplements. Minitab is a textbook example
Minitab Advantages
The advantages of Minitab are as follows
- The instructions can be written in English in Minitab
- It is user-friendly
- Minitab has good help facilities
- It has a flexible and affordable licensing
- Easy to compute all the statistics problems
- It contains all the main techniques
- It offers a quick graphical output which will help the users to have a quick look at their analysis
- Minitab is easy to learn when compared with other statistical packages
- Minitab serves best for research as well as for teaching purposes
Minitab Disadvantages
The disadvantages of Minitab are listed as below
- The inbuilt routines in Minitab make it unsuitable for applied research
- Minitab produces poor graphics. Though they have taken initiatives to improve the graphics in the recent versions
- The spreadsheet in Minitab cannot be easily manipulated as done in an Excel
- Minitab cannot read data easily from other software’s or packages
- The tabular output from Minitab is not that good as SPPS
- Minitab covers only a few econometric methods
- It offers poor help to the users under few circumstances
- It is not easy to enable the command language in Minitab and as a result, the users find the multiple windows very confusing
Analysis of Variance ANOVA in Minitab Course Objectives
After the completion of this course, you will be able to
- Understand the context where ANOVA has to be used
- Determine which type of questions can be answered using ANOVA
- Know how to implement One-way ANOVA
- Use the formulas used to compute basic values using ANOVA
- Understand the different models of ANOVA and how to use it
- Perform the ANOVA calculation
Pre Requisites for taking this ANOVA in Minitab Course
To enroll in this ANOVA in Minitab course you should possess a basic knowledge of statistics and familiarity with concepts like averages, standard deviation and different sort of variants. Other than this basic knowledge of Minitab is considered as an added advantage.
The target audience for this ANOVA in Minitab Course
Researchers, Statisticians, Students, and Professionals can undertake this course. And anyone who is interested in learning ANOVA can also take up this course.
ANOVA in Minitab Course Description
Section 1: Introduction
Understanding and Implementation of ANOVA
ANOVA is a group of statistical models which is used to test the significant difference between means. It finds out whether the means of various groups are equal or not. Here the differences are found by comparing the variances. Before ANOVA the t-test and z test were used. But then in 1918 ANOVA was developed by Ronald Fisher. ANOVA can be used to test the various null hypothesis at the same time. ANOVA can be used for various purposes by various persons. Researchers use ANOVA in three ways – one way ANOVA, two way ANOVA and N way Multivariate ANOVA. This chapter explains to you the basic of ANOVA and its implementation.
Pairwise Comparisons
Pairwise comparison is used to compare the entities in pairs to find out which of the entities are identical and which of the entities are not identical. This chapter will help you to learn how to test the differences among means. The other topics included in this section are
- Definition of Pairwise Comparison
- The problem in conducting t test among all pairs of means
- Fisher’s Protected LSD
- Bonferroni Correction
- Tuskey HSD test
- Scheffe’s test
- Confidence Intervals
Features of Chi-Test
The Chi-square distribution was first used by Karl Pearson in the year 1900. The chi-square distribution is the distribution of a sum of squares of k independent standard normal random variables with k degree of freedom. The null hypothesis in Chi-square test is that the distribution of the test statistics is a chi-square distribution and it is true. The chi-square test is used to find test the goodness of fit. Chi-square test can be used on nominal data. It is easy to calculate and interpret. The detailed explanation of chi-square test along with its examples are given in this chapter
Preference and Pulse Rate
Under this chapter, a sample research problem is given to illustrate repeated measures ANOVA. In this example, the researcher wants to examine the impact of dietary habit and exercise on the pulse rate of the sample. This example answers the following questions
- Does intensity influence pulse rate?
- Does dietary preference influence pulse rate?
- Does the exercise type on pulse rate depend on dietary preference?
- Does the influence of diet on pulse rate depend on intensity?
Difference between Growth Plan and Dividend Plan in MF
When selecting a mutual fund an investor has n number of choices. The more tough decision is to choose between the fund with growth option and the fund with dividend reinvestment option. Each type of fund definitely has its own advantages and disadvantages. And deciding which type of fund to choose purely depends on the individual needs and purposes.
In the growth option, the investor will have the same number of units in the end as it was in the beginning. The investor will not receive any dividends that will be paid out of the stocks. The growth option will not suit the investors who want to receive regular profits from their investment. The growth option is the best way for the investors to increase their Net Asset Value (NAV).
The dividend reimbursement option is different from the growth option. In mutual funds, some amount will be paid to the investors every year which is called dividend. This amount is paid to the investors to help them purchase more shares. The fund administrator purchases few more shares with that amount on behalf of the investor and will transfer them to the investor’s account.
The other differences between the growth option and dividend option in are explained in detail under this lesson
Checking NAV Price and Repurchase Price
Net Asset Value (NAV) is the actual value of a single unit of a given scheme. The NAV is the liquidation value of the fund on that particular day. The NAV is calculated by deducting the liabilities from the value of all the assets. Then it is divided by the number of units which is outstanding.
A close-ended fund has a fixed maturity period that varies between 2 and 14 years. Close-ended funds sell only a fixed number of shares in the initial offering and the remaining shares are sold in the secondary market. The cost at which the shares are sold in the secondary market is totally based on the market and not on the NAV. The repurchase price is the price at which the investors sell back the units to the mutual fund. It is NAV related and can also include the exit load.
ANOVA in Minitab FAQ’s General Questions
- What can I get from this course?
By learning this course you will gain a complete understanding of the basic concepts of ANOVA and the various statistical models which can be used to find out the relationship between the variables. Starting with the t-test you will learn about all the important concepts of ANOVA, its hypothesis, and assumptions made in ANOVA. The practical examples given in this chapter will help you to learn about the concepts better.
- What are the benefits of learning ANOVA?
ANOVA will help you to find out if two or more groups of people or things or animals differ from each other and in what ways they differ from each other. ANOVA can be used to investigate the relationship between many variables simultaneously. ANOVA will help you to do your research or project in the best way as it contains various statistical models within it.
ANOVA in Minitab Testimonials
Nainika
I took this course few weeks back and I was able to have much better understanding of ANOVA. I had taken few classes on statistics in the past but this course is the best of all. It helped me to gain a lot of practical knowledge about ANOVA. The chapters and contents were well structured and organized in such a way that it is easy to learn and understand. The examples of anova in minitab given in this chapter helped me to a great extent in solving the real scenario problems at my project. More topics could be included to this chapter so that it will be more effective. All thanks to educba for providing such great courses online.
Lillard
I am a researcher and I was looking out for a good online course to know more about performing anova in minitab for my research. Then I came across this online anova in minitab course from Educba. This great course served as a reference to complete my research successfully. Even the complicated computations of statistics using ANOVA were explained in a simple and easy way. The explanation of Mutual fund examples were great. It is a must course for beginners as well as professional researchers. Highly recommended course.