Why a model like P(t) = P 0 e kt, where P0 is the initial population,...

Exponential Model: P(t) = M(1 − e^−kt) where M is maximum population. Logistic Model: P (t)...

Exponential Model: P(t) = M(1 − e^−kt) where M is maximum population. Logistic Model: P (t) = M / 1+Be^−MKt where M is maximum population. Scientists study a fruit fly population in the lab. They estimate that their container can hold a maximum of 500 flies. Seven days after they start their experiment, they count 250 flies. 1. (a) Use the exponential model to find a function P(t) for the number of flies t days after the start of the...

Use the model below to answer the following questions y(t) = a × e kt where...

Use the model below to answer the following questions y(t) = a × e kt where y(t) is the value at time t, a is the start value, k is the rate of growth (> 0), or decay (< 0), t is the time. Atmospheric pressure (the pressure of air around you) decreases as you go higher. It decreases about 12% for every 1000 m. The pressure at sea level is about 1013 hPa, (1) What would the pressure be...

Use the model below to answer the following questions y(t) = a × e kt where...

Use the model below to answer the following questions y(t) = a × e kt where y(t) is the value at time t, a is the start value, k is the rate of growth (> 0), or decay (< 0), t is the time. The half-life of radium−226 is 1590 years, Suppose there are 52 mg radium−226 at the beginning (1) Find the mass after 1000 years correct to the nearest milligram. (2) When will the mass be reduced to...

1. A population grows according to an exponential growth model. The initial population is P0=12, and...

1. A population grows according to an exponential growth model. The initial population is P0=12, and the common ratio is r=1.45 Then: P1 = P2 = Find an explicit formula for Pn. Your formula should involve n. Pn =    Use your formula to find P9 P9= Give all answers accurate to at least one decimal place 2. Assume there is a certain population of fish in a pond whose growth is described by the logistic equation. It is estimated that...

Find the solution to the following equation for an age-structured population: ∂/∂t P(t,a)+ ∂/∂a P(t,a)=−δ(a)P(t,a), a≥0,t≥0...

Find the solution to the following equation for an age-structured population: ∂/∂t P(t,a)+ ∂/∂a P(t,a)=−δ(a)P(t,a), a≥0,t≥0 P(0,a) = P0(a) P(t,0) = C where C > 0 is a constant. Bonus: What is the asymptotic behavior of the population (total size, age-distribution if possible) as t → ∞? If limit exists, is it a solution to the PDE and, if so, what kind of solution?     

The population of the world was about 5.3 billion in 1990 (t = 0) and about...

The population of the world was about 5.3 billion in 1990 (t = 0) and about 6.1 billion in 2000 (t = 10). Assuming that the carrying capacity for the world population is 50 billion, the logistic differential equation dP =kP(50−P)dt models the population of the world P(t) (measured in billions), where t is the number of years after 1990. Solve this differential equation for P(t) and use this solution to predict what the population will be in 2050 according...

The population, P, of a small town is modelled by the function P(t)=-2t3+55t2+15t+22000 , where t=0...

The population, P, of a small town is modelled by the function P(t)=-2t3+55t2+15t+22000 , where t=0 represents the beginning of this year. a) What is the initial population? b) What is the population at the end of 10 years? c) What is the average rate of change over 10 years? d) Estimate the instantaneous rate of change at the end of the10th year. e) What is the difference between your answer in b) and d)?

a logistic equation for a pipulation P(T) in which there is harvesting can be written as...

a logistic equation for a pipulation P(T) in which there is harvesting can be written as (dP/dt)=aP(1-(P/M))-h, P(0)=P0 (a) if a=22, M=11, h=48, what are the equilibrium solutions for the logistic equation? (b) if P(0) = 4, what will the long-term behavior of the population?

A population P obeys the logistic model. It satisfies the equation dP/dt=(2/700)*P(7−P) for P>0 Assume that...

A population P obeys the logistic model. It satisfies the equation dP/dt=(2/700)*P(7−P) for P>0 Assume that P(0)=2. Find P(53)

Consider V = fp(t) 2 P2 : p0(1) = p(0)g, where P2 is a set of...

Consider V = fp(t) 2 P2 : p0(1) = p(0)g, where P2 is a set of all polynomials of degree less than or equal to 2. (1) Show that V is a subspace of P2 (2) Find a basis of V and the dimension of V