dn/dt is the change in population in that time. The population changed by 28 fish. The problem says that the original population was 80, so it grew by 28 fish to 108 fish.
It's just a simple math trick. You could multiply the original population by rmax, and then add it to the original population size to get the final population size. Or, you could just multiply by rmax + 1 to get the same answer.
One of the best explanations out there, saved my in class sleeper ass
good luck soldiers, 'tis will be a tough battle.
Better than Ap daily
Best video u saw on the bases of exponential and logistic population growth ❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤thanks love from jimcale
This saved me for my exam tmrw, ty! :)
W
Make an example whereby you calculate the number of years it would take for maybe deers to reach a given capacity
for the exponential growth example, how did you get from dN/dt = 28 to 108 fish? I'm a little confused about that.
dn/dt is the change in population in that time. The population changed by 28 fish. The problem says that the original population was 80, so it grew by 28 fish to 108 fish.
Why you added 1 to the rmax in the example of exponential growth?
It's just a simple math trick. You could multiply the original population by rmax, and then add it to the original population size to get the final population size. Or, you could just multiply by rmax + 1 to get the same answer.
In the population growth why did u add 59 + 173
We already found B-D
And 173 experienced it sooo I didn't really understand that part
Nice
Dios te bendiga
ily
very nice