00:01
Given us to identify the snakes evolutionary fitness through given data.
00:05
We have to identify the evolutionary fitness, that is evolutionary fitness snake, which means a survival of fittest snake, we have to identify.
00:18
A survival of the fittest snake is a snake which is going to have a gene flow at highest amount from their population.
00:31
The highest flow of gene according to the law of davinsla of savable of the fittest theory.
00:43
So they provided some of the data based on the data we have to identify the snake which is going to be fittest or evolutionary fit so so this was the data to be provided so we have to identify the savabing of springs first because the savabing of springs are very important for the flow of gene.
01:08
Even though the age of that is going to be increased or the speed is going to be increased, it is going to use for only the survival of a one snake.
01:22
There will be no flow of gene due to this.
01:25
But when the survival of offspring is going to be increased, a flow of gene of a snake will be increased, which is known to be evolutionary fit.
01:36
As there will be a presence of a gene for a large generation.
01:45
Increased generation is going to have a gene flow, which means there will be an evolutionary fit gene.
01:52
So we have to identify the suburbable offspring.
01:58
Suburbing of springs are going to be important factor to be analyzed to identify the snake which is going to be evolutionary fit.
02:08
So in this we can find that a snake a is going to have increased saveral springs.
02:18
Seagabaging of springs is going to be about 40 in the snake a.
02:26
So in the other conditions of snakes it is going to be decreased to 20 to 32 or 10.
02:33
So snake a is going to have an increased off springs then there will be a more gene flow across the generation after generation...