Please show all work step by step The growth of a bacterial colony is modeled by...

1. Lactobacillus acidophilus is one of the many bacteria used to turn milk into yogurt. The...

1. Lactobacillus acidophilus is one of the many bacteria used to turn milk into yogurt. The population P of a colony of 3600 bacteria at time t minutes can be modeled by the function P(x) = 3600(2)^t/73. How long does it take the population (in hours) to reach 1,792,000? You may round to the nearest 5-minute increment. Please show all of your work and submit those with your answer.

During a gold rush in the 1800's, the population of a boom town increased exponentially. The...

During a gold rush in the 1800's, the population of a boom town increased exponentially. The population can be modeled by the function A(t)=A0ert, where t is the time in months after gold is discovered. If the initial population is 4 people, and there are 8 people after 2 months, how long does it take for the population to reach 32 people? (Give an exact answer, not a decimal approximation.)

The rate of growth dP/dt of a population of bacteria is proportional to the square root...

The rate of growth dP/dt of a population of bacteria is proportional to the square root of t with a constant coefficient of 7, where P is the population size and t is the time in days (0≤t≤10). The initial size of the population is 600. Approximate the population after 7 days. Round the answer to the nearest integer.

A species of fish was added to a lake. The population size P (t) of this...

A species of fish was added to a lake. The population size P (t) of this species can be modeled by the following exponential function, where t is the number of years from the time the species was added to the lake.P (t) =1000/(1+9e^0.42t) Find the initial population size of the species and the population size after 9 years. Round your answer to the nearest whole number as necessary. Initial population size is : Population size after 9 years is:

PLEASE TYPE ANSWER!!! Show ALL work, show and label ALL METHODS and FORMULAS used. The initial...

PLEASE TYPE ANSWER!!! Show ALL work, show and label ALL METHODS and FORMULAS used. The initial surface area of a puddle on a concrete playground is 123 ft2. The rate of change of the surface area with respect to time (in minutes) is directly proportional to the surface area A(t). After 5 minutes, the surface area is 105 ft2 a) Write the DE to be solved to find the equation for A(t) b) Solve the equation in a), subject to...

2. The growth of cable television between 1978 and 1994 can be modeled by the following...

2. The growth of cable television between 1978 and 1994 can be modeled by the following logistic function: S(t) = 65/ 1+23e^(-0.214t) where S(t) is the number of cable TV subscribers (in millions) t years after 1970. a. Determine the number of cable TV subscribers in 1984 according to this model. b. Determine S′(t) using the function above and the derivative rules you know. c. Use this function to determine the rate at which the number of cable TV subscribers...

**please show all work and explain** An algorithm takes 0.5 seconds to run on an input...

**please show all work and explain** An algorithm takes 0.5 seconds to run on an input of size 100. How long will it take to run on an input of size 1000 if the algorithm has a running time that is linear? quadratic? log-linear? cubic?

Please solve these 2 questions step by step trying to learn for an exam. 1.Find an...

Please solve these 2 questions step by step trying to learn for an exam. 1.Find an explicit solution of the following differential equation. y' =xy-xy^2, y(0) =3 2. Suppose a population satisfies, dP/dt = 0.02P-0.00005P^2; P(0) =40 =P0, Where t is measured in Years. a) what is the carrying capacity M? b)for what values of P is the population increasing the fastest? c)Given the solution of the differential equation. P(t) =M/1+Ae^-0.02t, where M is the carrying capacity and A =...

Biologists stocked a lake with 240 fish and estimated the carrying capacity (the maximal population for...

Biologists stocked a lake with 240 fish and estimated the carrying capacity (the maximal population for the fish of that species in that lake) to be 6,000. The number of fish tripled in the first year. (a) Assuming that the size of the fish population satisfies the logistic equation, find an expression for the size of the population after t years. P=_____ (b) How long will it take for the population to increase to 3000? (Round your answer to two...

Please show all work. A spring has natural frequency w=2. An external force f(t)=3cos(2t) is applied...

Please show all work. A spring has natural frequency w=2. An external force f(t)=3cos(2t) is applied to the spring. Its initial displacement is 1 and initial velocity is 2. Find the displacement of the spring y(t) at any time t. What happens to the spring in the long run?