ADVERTISEMENTS:
In this article we will discuss about:- 1. Meaning of Regression Coefficient 2. Properties of Regression Coefficient 3. Computation 4. Applications.
Meaning of Regression Coefficient:
Regression coefficient is a statistical measure of the average functional relationship between two or more variables. In regression analysis, one variable is considered as dependent and other(s) as independent. Thus, it measures the degree of dependence of one variable on the other(s). Regression coefficient was first used for estimating the relationship between the heights of fathers and their sons.
Properties of Regression Coefficient:
The important properties of regression coefficient are given below:
ADVERTISEMENTS:
1. It is denoted by b.
2. It is expressed in terms of original unit of data.
3. Between two variables (say x and y), two values of regression coefficient can be obtained. One will be obtained when we consider x as independent and y as dependent and the other when we consider y as independent and x as dependent. The regression coefficient of y on x is represented as byx and that of x on y as bxy.
4. Both regression coefficients must have the same sign. If byx is positive, bxy will also be positive and vice versa.
ADVERTISEMENTS:
5. If one regression coefficient is greater than unity, then the other regression coefficient must be lesser than unity.
6. The geometric mean between two regression coefficients is equal to the coefficient of correlation, r =
7. Arithmetic mean of both regression coefficients is equal to or greater than coefficient of correlation.
(byx + bxy)/2 = equal or greater than r
Regression coefficients are classified as:
(1) Simple, partial and multiple
(2) Positive and negative and
(3) Linear and non-linear.
Computation of Regression Coefficient:
Regression coefficient can be worked out from both un-replicated and replicated data. For calculation of regression coefficient from un-replicated data three estimates, viz., (1) sum of all observations on x and y (∑x, ∑y) variables, (2) their sum of squares (∑x2 and ∑y2) and (3) sum of products of all observations on x and y variables (∑xy).
ADVERTISEMENTS:
Then regression coefficient can be worked out as follows:
ADVERTISEMENTS:
byx = ∑xy – (∑x.∑y) /∑y2 – (∑y)2
bxy = ∑xy – (∑x.∑y) /∑x2 – (∑x)2
ADVERTISEMENTS:
In case of replicated data, first analysis of variances and co-variances is performed and then regression coefficient is worked out as given below:
byx = Cov. (xy)/Vx, and bxy = Cov. (xy) /Vy,
where Cov = co-variance between x and y, Vx = variance of x, and Vy = variance of y.
The significance of regression coefficient is generally tested with the help of t-test.
ADVERTISEMENTS:
First t is worked out as given below:
t = byx /SE (b)
The calculated value of t is compared with the table value of t at desired level of significance and appropriate degrees of freedom. If the calculated value of t is greater than table value, it is considered significant and vice versa.
The value of dependent variable can be predicated with the value of independent variable. By substituting the value of dependent variable we can get value of independent variable.
Applications of Regression Coefficient in Genetics:
ADVERTISEMENTS:
Regression analysis has wide applications in the field of genetics and breeding as given below:
1. It helps in finding out a cause and effect relationship between two or more plant characters.
2. It is useful in determining the important yield contributing characters.
3. It helps in the selection of elite genotypes by indirect selection for yield through independent characters.
4. It also helps in predicting the performance of selected plants in the next generation.