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When individuals in a population reproduce at a constant rate it is called?
When individuals in a population reproduce at a constant rate, it is called an exponential growth. Populations generally experience this growth under ideal conditions.
What are the difference between logistic and exponential growth?
Logistic growth occurs when a population's growth rate decreases as it reaches its carrying capacity, resulting in an S-shaped curve. Exponential growth, on the other hand, shows constant growth rate over time, leading to a J-shaped curve with no limits to growth. Logistic growth is more realistic for populations with finite resources, while exponential growth is common in idealized situations.
What is a population in which exponential growth is limited by a density dependent factor?
the answer must be exponential growth model.
Difference between logistic and exponential growth?
Logistic growth levels off as it reaches carrying capacity due to limited resources, while exponential growth continues to increase without limit. Logistic growth is seen in populations that are influenced by factors like competition and limited resources, whereas exponential growth occurs when resources are abundant and population grows unrestricted.
What is the difference between logistic and exponential growth?
look in your textbook
are dogs exponential growth or logistic growth?
Logistics growth as exponential only uses scientific examples to prove a study
What is the difference between exponential growth and decay?
Exponential growth is when the amount of something is increasing, and exponential decay is when the amount of something is decreasing.
Is the difference between exponential growth and logistic growth?
look in your textbook
Which is not a difference between a population showing exponential growth and a population showing logistic growth?
Mutation Rate
What is a growth factor in exponential growth?
implementation of exponential groth
What is the difference exponential growth and decay?
They are incredibly different acceleration patterns. Exponential growth is unbounded, whereas exponential decay is bounded so as to form a "dynamic equilibrium." This is why exponential decay is so typical of natural processes. To see work I have done in explaining exponential decay, go to the page included in the related links.
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.
What are exponential growth and logistic growth?
Exponential Growth: occurs when the individuals in a population reproduce at a constant rate.Logistic Growth: occurs when a population's growth slows or stops following a period of exponential growth around a carrying capacity.
What is cubic growth and how does it differ from exponential growth?
Cubic Growth is x^a, a being some constant, while exponential growth is a^x. Exponential growth ends up growing MUCH faster than cubic growth.
When individuals in a population reproduce at a constant rate it is called?
When individuals in a population reproduce at a constant rate, it is called an exponential growth. Populations generally experience this growth under ideal conditions.
What are the difference between logistic and exponential growth?
Logistic growth occurs when a population's growth rate decreases as it reaches its carrying capacity, resulting in an S-shaped curve. Exponential growth, on the other hand, shows constant growth rate over time, leading to a J-shaped curve with no limits to growth. Logistic growth is more realistic for populations with finite resources, while exponential growth is common in idealized situations.
Who invented exponentail growth and exponential decay?
Reverend Thomas Malthus developed the concept of Exponential Growth (another name for this is Malthusian growth model.) However the mathematical Exponent function was already know, but not applied to population growth and growth constraints. Exponential Decay is a natural extension of Exponential Growth
