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

Under ideal conditions, a bacteria population (denoted P) is known to double every 8 hours. Suppose...

Under ideal conditions, a bacteria population (denoted P) is known to double every 8 hours. Suppose there are initially 3 bacteria. What is the size of the population after 40 hours? What is the size of the population after t hours? Estimate the size of the population after 45 hours. Round up to the nearest integer.

As observed on earth, a certain type of bacteria is known to double in number every...

As observed on earth, a certain type of bacteria is known to double in number every 24 hours. Two cultures of these bacteria are prepared, each consisting initially of one bacterium. One culture is left on earth and the other placed on a rocket that travels at a speed of 0.816c relative to the earth. At a time when the earthbound culture has grown to 64 bacteria, how many bacteria are in the culture on the rocket, according to an...

As observed on earth, a certain type of bacteria is known to double in number every...

As observed on earth, a certain type of bacteria is known to double in number every 24 hours. Two cultures of these bacteria are prepared, each consisting initially of one bacterium. One culture is left on earth and the other placed on a rocket that travels at a speed of 0.733c relative to the earth. At a time when the earthbound culture has grown to 32 bacteria, how many bacteria are in the culture on the rocket, according to an...

The initial size of the bacteria is 1000. After 3 hours the bacterium count is 5000....

The initial size of the bacteria is 1000. After 3 hours the bacterium count is 5000. a. Find the function to model the bacteria population after t hours.(Round your r value to four decimal places. b. Find the population after 6.5 hours. Round your answer to the nearest whole number. c.When will the population reach 14,000? Round your answer to one decimal place.

If a bacteria population starts with 125 bacteria and doubles in size every half hour, then...

If a bacteria population starts with 125 bacteria and doubles in size every half hour, then the number of bacteria after t hours is n = f(t) = 125 · 4t. (a) Find the inverse of this function. t =  log4​(t125​)    Explain its meaning. a The inverse function gives the population after half an hour has passed. b The inverse function gives the population after 4 hours have passed.      c The inverse function gives the number of hours that have...

The bacteria in a culture increased from 600 at 1:00 P.M. to 3600 at 6:00 P.M....

The bacteria in a culture increased from 600 at 1:00 P.M. to 3600 at 6:00 P.M. (a) Find the expression for the number of bacteria t hours after 1:00 P.M. Q(t) =   (b) Find the number of bacteria that will be present at 7:00 P.M. (Round your answer to the nearest whole number.) bacteria (c) When will the population reach 18,000? (Round your answer to one decimal place.) hr (d) How long does it take the population to double in...

The cells in a culture of bacteria conform to uninhibited growth. Suppose there are 5,000 cells...

The cells in a culture of bacteria conform to uninhibited growth. Suppose there are 5,000 cells initially and 6,500 after 1 hour. (a) How many cells are in the culture after 4 hours? (Round your answer to the nearest whole number.) ________ cells (b) How long will it take for the bacteria culture to reach 50,000 cells? (Round your answer to two decimal places.) ________ hr

The number of bacteria in a certain sample increases according to the following function, where y0...

The number of bacteria in a certain sample increases according to the following function, where y0 is the initial number present, and y  is the number present at time t (in hours). =yy0e0.067t How many hours does it take for the size of the sample to double? Do not round any intermediate computations, and round your answer to the nearest tenth.

You are a researcher studying the lifespan of a certain species of bacteria. A preliminary sample...

You are a researcher studying the lifespan of a certain species of bacteria. A preliminary sample of 40 bacteria reveals a sample mean of ¯x=78 hours with a standard deviation of s=4 hours. You would like to estimate the mean lifespan for this species of bacteria to within a margin of error of 0.7 hours at a 90% level of confidence. What sample size should you gather to achieve a 0.7 hour margin of error? Round your answer up to...

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.