Instructions A local biologist needs a program to predict population growth. The inputs would be: 1. The initial number of organisms, as an int 2. The rate of growth (a real number greater than 1), as a float 3. The number of hours it takes to achieve this rate, as an int 4. A number of hours during which the population grows, as an int For example, one might start with a population of 500 organisms, a growth rate of 2, and a growth period to achieve this rate of 6 hours. Assuming that none of the organisms die, this would imply that this population would double in size every 6 hours. Thus, after allowing 6 hours for growth, we would have 1000 organisms, and after 12 hours, we would have 2000 organisms. Write a program that takes these inputs and displays a prediction of the total population. An example of the program input and output is shown below: Enter the initial number of organisms: 10 Enter the rate of growth (a real number › 1]: 2 Enter the number of hours to achieve the rate of growth: 2 Enter the total hours of growth: 6 The total population is 80
Instructions A local biologist needs a program to predict population growth. The inputs would be: 1. The initial number of organisms, as an int 2. The rate of growth (a real number greater than 1), as a float 3. The number of hours it takes to achieve this rate, as an int 4. A number of hours during which the population grows, as an int For example, one might start with a population of 500 organisms, a growth rate of 2, and a growth period to achieve this rate of 6 hours. Assuming that none of the organisms die, this would imply that this population would double in size every 6 hours. Thus, after allowing 6 hours for growth, we would have 1000 organisms, and after 12 hours, we would have 2000 organisms. Write a program that takes these inputs and displays a prediction of the total population. An example of the program input and output is shown below: Enter the initial number of organisms: 10 Enter the rate of growth (a real number › 1]: 2 Enter the number of hours to achieve the rate of growth: 2 Enter the total hours of growth: 6 The total population is 80
Database System Concepts
7th Edition
ISBN:9780078022159
Author:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Publisher:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Chapter1: Introduction
Section: Chapter Questions
Problem 1PE
Related questions
Question
Instructions
A local biologist needs a program to predict population growth. The inputs would be:
1. The initial number of organisms, as an int
2. The rate of growth (a real number greater than 1), as a float
3. The number of hours it takes to achieve this rate, as an int
4. A number of hours during which the population grows, as an int
For example, one might start with a population of 500 organisms, a growth rate of 2, and a growth period to achieve this rate of 6 hours. Assuming that none of the organisms die, this would imply that this population would double in size every 6 hours. Thus, after allowing 6 hours for growth, we would have 1000 organisms, and after 12 hours, we would have 2000 organisms.
Write a program that takes these inputs and displays a prediction of the total population.
An example of the program input and output is shown below:
Enter the initial number of organisms: 10
Enter the rate of growth (a real number › 1]: 2
Enter the number of hours to achieve the rate of growth: 2
Enter the total hours of growth: 6
The total population is 80
![%3D9780357505397&id%3D1376563645&snapshotld=2741191&
ENGAGE MINDTAP
amming Exercise 3.5
Instructions
population.py
A local biologist needs a program to predict population growth. The inputs would be:
1 # Put your code here
1. The initial number of organisms, as an int
2. The rate of growth (a real number greater than 1), as a float
3. The number of hours it takes to achieve this rate, as an int
4. A number of hours during which the population grows, as an int
For example, one might start with a population of 500 organisms, a growth rate of 2, and a growth
period to achieve this rate of 6 hours. Assuming that none of the organisms die, this would imply
that this population would double in size every 6 hours. Thus, after allowing 6 hours for growth, we
would have 1000 organisms, and after 12 hours, we would have 2000 organisms.
Write a program that takes these inputs and displays a prediction of the total population.
An example of the program input and output is shown below:
Enter the initial number of organisms: 10
Enter the rate of growth [a real number > 1]: 2
Enter the number of hours to achieve the rate of growth: 2
Enter the total hours of growth: 6
The total nonulatin is 80](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc25e6886-23a3-4870-9519-3bb0f78f33bc%2F21c9fab7-524b-45c9-ae20-1be177118d1e%2F1cyfiw4_processed.jpeg&w=3840&q=75)
Transcribed Image Text:%3D9780357505397&id%3D1376563645&snapshotld=2741191&
ENGAGE MINDTAP
amming Exercise 3.5
Instructions
population.py
A local biologist needs a program to predict population growth. The inputs would be:
1 # Put your code here
1. The initial number of organisms, as an int
2. The rate of growth (a real number greater than 1), as a float
3. The number of hours it takes to achieve this rate, as an int
4. A number of hours during which the population grows, as an int
For example, one might start with a population of 500 organisms, a growth rate of 2, and a growth
period to achieve this rate of 6 hours. Assuming that none of the organisms die, this would imply
that this population would double in size every 6 hours. Thus, after allowing 6 hours for growth, we
would have 1000 organisms, and after 12 hours, we would have 2000 organisms.
Write a program that takes these inputs and displays a prediction of the total population.
An example of the program input and output is shown below:
Enter the initial number of organisms: 10
Enter the rate of growth [a real number > 1]: 2
Enter the number of hours to achieve the rate of growth: 2
Enter the total hours of growth: 6
The total nonulatin is 80
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