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No. It can't even undergo linear growth forever, because it will run out of resources or space. With exponential growth, this merely happens more suddenly.
"Exponential" growth refers to doublings. It follows a pattern like this: 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, 1024,
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Describe an exponential growth pattern include key factors such as growth factors?
One example of exponential growth and limiting factors is a basic population growth equation, dN/dt=rN(1-N/K), where N(t) is the population at time t, r is the populations growth rate at t=0, and K is the populations carrying capacity which is the limiting factor on the population's exponential growth. The population will increase exponentially until it starts to get close to K at which point the growth rate will slow down and the population will converge to K as t tends to infinity assuming no other factors influence the population. This particular equation is known as a logistic model and in general doesn't represent exponential population growth very well in the real world due to numerous factors such as resources available, other species fighting for the same resources, natural factors such as disease or illness as well as others. This basic model just assumes that a population can grow to a capacity K without interruption and without external effects.
What is this number 18446744073709551615?
It is (2 ^ 64) - 1. Or UNSIGNED BIGINT Maximum value (databases) 2^64-1=18,446,744,073,709,551,615 it is the answer to the 'chessboard problem' using wheat or rice, dependent on what culture you believe the chess board originated from, It also shows a quick view of exponential growth.
Perentage growth from 29 to 68?
Growth = 68 / 29 x 100 = 234.5% For something to increase from 29 to 68 is a 234.5 percentage growth.
Calculate percentage growth in revenues?
99
To what decimal place value is the yearly growth measured if the tree grows 0.0658 per year in 155 years?
If it grows 0.0658 per year then the yearly growth is 0.0658!
Can any species undergo exponential growth forever?
If there is restrictions on the species population then yes, why not? However if there is a limited to resources or predation then no.
Can species undergo exponential growth forever?
It is not possible for any species to undergo exponential growth forever. There is only a finite amount of resources in terms of living space, food, air to breathe, water to drink, and so forth, and therefore a constantly growing species will eventually get to the point at which it runs out of resources. Typically this results in mass starvation and shrinkage of the overgrown species.
what describe the exponential growth of species?
The best description for the exponential growth of species is if the resources available are unlimited, each species can grow to its full potential. This leads the species to grow in numbers.
Can exponential economic growth go on forever on a finite planet?
lumps
Populations of species that are r-strategists are characterized by exponential growth?
Yes and K is Logistic growth
Why is it impossible for exponentional growth to continue forever?
It is impossible for exponential growth to continue forever for a few reasons. The population will run out of food, water, and space to live.
Why is exponential growth unable to continue forever in populations?
The population loses genetic diversity
How the availability of resources in the environment is linked to exponential growth of a species?
if resources are unlimited and there are no predators, then the population of a species will grow exponentially
What is a growth factor in exponential growth?
implementation of exponential groth
When one species succeeds over another that requires that same limited resource the outcome is?
Exponential growth. :)
What is the origin of exponential growth?
Exponential growth does not have an origin: it occurs in various situations in nature. For example if the rate of growth in something depends on how big it is, then you have exponential growth.
When does exponential growth of a population stop?
Exponential growth may occur in environments where there are few individuals and plentiful resources but when the number of individuals become large enough resources will be depleted slowing the growth in exponential growth.
