A certain population of bacteria contains 2320 individuals at noon on Monday and grows to 2350...

A bacteria culture initially contains 40 cells and grows at a rate proportional to its size....

A bacteria culture initially contains 40 cells and grows at a rate proportional to its size. After 2 hours the population has increased to 120. a) Find an expression (in exact simplest form) for the number of bacteria after t hours. b) Find the rate of growth at t = 5 hours. Round your final answer to nearest whole number.

A colony of bacteria initially has 500 individuals. After one hour, the population grew to 1000...

A colony of bacteria initially has 500 individuals. After one hour, the population grew to 1000 individuals. Assuming the growth rate of bacteria is proportional to the population, determine the following: (a) Determine an expression for the growth of bacteria as a function of time. (b) Determine the population at 5.5 hours. (c) Determine the rate of population growth at 5.5 hours.

A bacteria culture starts with 1000 bacteria and grows at an exponential rate. After 3 hours...

A bacteria culture starts with 1000 bacteria and grows at an exponential rate. After 3 hours there will be 3000 bacteria. Give your answer accurate to at least 4 decimal places (a) Express the population P after t hours as a function of t. (b) What will be the population after 2 hours? (c) How long will it take for the population to reach 1310?

A bacterial population starts with 10,000 bacteria and grows at a rate proportional to its size....

A bacterial population starts with 10,000 bacteria and grows at a rate proportional to its size. After 2 hours there are 40,000 bacteria. a) Find the growth rate k. Round k to 3 decimal places. b) Find the number of bacteria after 5 hours. c) When will the population reach 1 million? d) What is the doubling time?

The population of bacteria in a culture grows at a rate proportional to the number of...

The population of bacteria in a culture grows at a rate proportional to the number of bacteria present at time t. After 2 hours from the beginning, it is observed that 500 bacteria are present. After 5 hours (from the beginning), 1500 bacteria are present. What is the initial number of bacteria P0 ? Hint: Use P(t) = P0ekt A - 240 at beggining B - 198 at beggining C - 541 at the beggining D - None of the...

Under ideal conditions a certain bacteria population is known to double every five hours. Suppose that...

Under ideal conditions a certain bacteria population is known to double every five hours. Suppose that there are initially 200 bacteria. (a) What is the size of the population after 20 hours? bacteria (b) What is the size of the population after t hours? P = (c) Estimate the size of the population after 34 hours. (Round your answer to the nearest integer.) bacteria (d) Graph the population function. (e)Estimate the time for the population to reach 60,000. (Round your...

The number of bacteria in a certain population increases according to a continuous exponential growth model,...

The number of bacteria in a certain population increases according to a continuous exponential growth model, with a growth rate parameter of 2.3%  per hour. How many hours does it take for the size of the sample to double?

A bacterial colony initially has 800 individuals. Within an hour the population grew to 6,400 individuals....

A bacterial colony initially has 800 individuals. Within an hour the population grew to 6,400 individuals. Assuming that the growth rate of bacteria is proportional to the population, determine the following: 1- Determine an expression for the growth of bacteria as a function of time. 2- Determine the population at 2.5 hours. 3- Determine the population growth rate at 2.5 hours.

The population P(t) of bacteria grows according to the logistics equation dP/dt=P(12−P/4000), where t is in...

The population P(t) of bacteria grows according to the logistics equation dP/dt=P(12−P/4000), where t is in hours. It is known that P(0)=700. (1) What is the carrying capacity of the model? (2) What is the size of the bacteria population when it is having is fastest growth?

A population of 10 yeast cells is put into a flask with growth media that contains...

A population of 10 yeast cells is put into a flask with growth media that contains all of the nutrients required for growth. The yeast has a doubling time of two hours; four hours after adding the yeast to the flask the population size is 40 cells. After three days, the population size stabilizes at around 500 cells. Is this population exhibiting logistic or exponential growth? Explain.