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Calculus 1 : Constant of Proportionality

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Example Question #3741 : Calculus

The rate of growth of the hogs in Houston is proportional to the population. The population increased from 500 to 900 between 2013 and 2015. What is the expected population in 2020?

Possible Answers:

5321

3914

4196

1920

1900

Correct answer:

3914

Explanation:

We're told that the rate of growth of the population is proportional to the population itself, meaning that this problem deals with exponential growth/decay. The population can be modeled thusly:

$p(t)=p_0e^{kt}$

Where p_0 is an initial population value, and is the constant of proportionality.

Since the population increased from 500 to 900 between 2013 and 2015, we can solve for this constant of proportionality:

$900=500e^{k(2015-2013)}$

$\frac{900}{500}=e^{2k}$

$2k=ln(\frac{900}{500})$

$k=\frac{ln(\frac{900}{500})}{2}=0.294$

Using this, we can calculate the expected value after five years from 2015:

$P=900e^{5(0.294)}\approx 3914$

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Example Question #22 : Constant Of Proportionality

The rate of growth of the population of mad donkeys is proportional to the population. The population increased from 1450 to 1965 between 2011 and 2015. What is the expected population in 2019?

Possible Answers:

2987

4009

2480

3125

2663

Correct answer:

2663

Explanation:

We're told that the rate of growth of the population is proportional to the population itself, meaning that this problem deals with exponential growth/decay. The population can be modeled thusly:

$p(t)=p_0e^{kt}$

Where p_0 is an initial population value, and is the constant of proportionality.

Since the population increased from 1450 to 1965 between 2011 and 2015, we can solve for this constant of proportionality:

$1965=1450e^{k(2015-2011)}$

$\frac{1965}{1450}=e^{4k}$

$4k=ln(\frac{1965}{1450})$

$k=\frac{ln(\frac{1965}{1450})}{4}=0.076$

Using this, we can calculate the expected value from 2015 to 2019:

$P=1965e^{4(0.076)} \approx 2663$

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Example Question #23 : Constant Of Proportionality

The rate of growth of the population of lice in a field is proportional to the population. The population increased from 10987 to 15612 between January and March. What is the expected population in October?

Possible Answers:

58799

67183

49857

41513

53519

Correct answer:

53519

Explanation:

We're told that the rate of growth of the population is proportional to the population itself, meaning that this problem deals with exponential growth/decay. The population can be modeled thusly:

$p(t)=p_0e^{kt}$

Where p_0 is an initial population value, and is the constant of proportionality.

Since the population increased from 10987 to 15612 between January and March, we can solve for this constant of proportionality. Represent the months as their number in the calendar:

$15612=10987e^{k(3-1)}$

$\frac{15612}{10987}=e^{2k}$

$2k=ln(\frac{15612}{10987})$

$k=\frac{ln(\frac{15612}{10987})}{2}=0.176$

Using this, we can calculate the expected value from March to October:

$P=15612e^{(10-3)(0.176)} \approx 53519$

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Example Question #24 : Constant Of Proportionality

The rate of growth of the population of fruit flies in a salad bar is proportional to the population. The population increased from 38 to 92 in the course of 60 minutes. What is the expected population after another 60 minutes?

Possible Answers:

272

222

173

146

195

Correct answer:

222

Explanation:

We're told that the rate of growth of the population is proportional to the population itself, meaning that this problem deals with exponential growth/decay. The population can be modeled thusly:

$p(t)=p_0e^{kt}$

Where p_0 is an initial population value, and is the constant of proportionality.

Since the population increased from 38 to 92 in the course of 60 minutes, we can solve for this constant of proportionality:

$92=38e^{k(60)}$

$\frac{92}{38}=e^{60k}$

$60k=ln(\frac{92}{38})$

$k=\frac{ln(\frac{92}{38})}{60}=0.0147$

Using this, we can calculate the expected value after another 60 minutes:

$P=92e^{60(0.0147)} \approx 222$

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Example Question #25 : Constant Of Proportionality

The rate of growth of the number of fungal cells on a loaf of bread is proportional to the population. The population increased from 112 to 357 between 1:00 and 2:00. What is the expected population at 3:00?

Possible Answers:

1387

839

602

1412

1138

Correct answer:

1138

Explanation:

We're told that the rate of growth of the population is proportional to the population itself, meaning that this problem deals with exponential growth/decay. The population can be modeled thusly:

$p(t)=p_0e^{kt}$

Where p_0 is an initial population value, and is the constant of proportionality.

Since the population increased from 112 to 357 between 1:00 and 2:00, we can solve for this constant of proportionality:

$357=112e^{k(2-1)}$

$\frac{357}{112}=e^{k}$

$k=ln(\frac{357}{112})$

k=1.159

Using this, we can calculate the expected value from 2:00 to 3:00:

$P=357e^{(3-2)(1.159)} \approx 1138$

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Example Question #26 : Constant Of Proportionality

The rate of growth of the bacteria in a petri dish is proportional to the population. The population increased from 29 to 167 between 3:00 and 6:00. What is the expected population in 8:30?

Possible Answers:

912

365

640

848

719

Correct answer:

719

Explanation:

We're told that the rate of growth of the population is proportional to the population itself, meaning that this problem deals with exponential growth/decay. The population can be modeled thusly:

$p(t)=p_0e^{kt}$

Where p_0 is an initial population value, and is the constant of proportionality.

Since the population increased from 29 to 167 between 3:00 and 6:00, we can solve for this constant of proportionality:

$167=29e^{k(6-3)}$

$\frac{167}{29}=e^{3k}$

$3k=ln(\frac{167}{29})$

$k=\frac{ln(\frac{167}{29})}{3}=0.584$

Using this, we can calculate the expected value from 6:00 to 8:30:

$P=167e^{(8.5-6)(0.584)} \approx 719$

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Example Question #1 : Asymptotic And Unbounded Behavior

The rate of decrease due to poaching of the elephants in unprotected Sahara is proportional to the population. The population in one region decreased from 1038 to 817 between 2010 and 2015. What is the expected population in 2017?

Possible Answers:

619

527

779

742

493

Correct answer:

742

Explanation:

We're told that the rate of growth of the population is proportional to the population itself, meaning that this problem deals with exponential growth/decay. The population can be modeled thusly:

$p(t)=p_0e^{kt}$

Where p_0 is an initial population value, and is the constant of proportionality.

Since the population decreased from 1038 to 817 between 2010 and 2015, we can solve for this constant of proportionality:

$817=1038e^{k(2015-2010)}$

$\frac{817}{1038}=e^{5k}$

$5k=ln(\frac{817}{1038})$

$k=\frac{ln(\frac{817}{1038})}{5}=-0.048$

Using this, we can calculate the expected value from 2015 to 2017:

$P=817e^{(2017-2015)(-0.048)} \approx 742$

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Example Question #21 : How To Find Constant Of Proportionality Of Rate

The rate of decrease in the population of grey wolves in Tennessee is proportional to the population. The population decreased from 5430 to 3740 between 2008 and 2015. What is the expected population in 2020?

Possible Answers:

3128

3396

2972

2430

2865

Correct answer:

2865

Explanation:

We're told that the rate of growth of the population is proportional to the population itself, meaning that this problem deals with exponential growth/decay. The population can be modeled thusly:

$p(t)=p_0e^{kt}$

Where p_0 is an initial population value, and is the constant of proportionality.

Since the population decreased from 5430 to 3740 between 2008 and 2015, we can solve for this constant of proportionality:

$3740=5430e^{k(2015-2008)}$

$\frac{3740}{5430}=e^{7k}$

$7k=ln(\frac{3740}{5430})$

$k=\frac{ln(\frac{3740}{5430})}{7}=-0.0533$

Using this, we can calculate the expected value from :

$P=3740e^{(2020-2015)(-0.0533)} \approx 2865$

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Example Question #28 : Constant Of Proportionality

The rate of growth of the population of prokaryotes in a pond is proportional to the population. The population increased from 1130 to 1460 between 3:15 and 4:30. What is the expected population in 6:45?

Possible Answers:

2495

2127

2208

2316

2688

Correct answer:

2316

Explanation:

We're told that the rate of growth of the population is proportional to the population itself, meaning that this problem deals with exponential growth/decay. The population can be modeled thusly:

$p(t)=p_0e^{kt}$

Where p_0 is an initial population value, and is the constant of proportionality.

Since the population increased from 1130 to 1460 between 3:15 and 4:30, we can solve for this constant of proportionality. Convert the minutes to decimal values of an hour:

$1460=1130e^{k(4.5-3.25)}$

$\frac{1460}{1130}=e^{1.25k}$

$1.25k=ln(\frac{1460}{1130})$

$k=\frac{ln(\frac{1460}{1130})}{1.25}=0.205$

Using this, we can calculate the expected value from 4:30 to 6:45:

$P=1460e^{(6.75-4.5)(0.205)} \approx 2316$

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Example Question #29 : Constant Of Proportionality

The rate of growth of the constituency of the hivemind is proportional to the population. The population increased from 10800 to 25200 between April and June. What is the expected population in November, when mankind takes its last stand?

Possible Answers:

144255

209945

187450

119368

163689

Correct answer:

209945

Explanation:

We're told that the rate of growth of the population is proportional to the population itself, meaning that this problem deals with exponential growth/decay. The population can be modeled thusly:

$p(t)=p_0e^{kt}$

Where p_0 is an initial population value, and is the constant of proportionality.

Since the population increased from 10800 to 25200 between April and June, we can solve for this constant of proportionality. Use the months' number in the calendar:

$25200=10800e^{k(6-4)}$

$\frac{25200}{10800}=e^{2k}$

$2k=ln(\frac{25200}{10800})$

$k=\frac{ln(\frac{25200}{10800})}{2}=0.424$

Using this, we can calculate the expected value in November from June:

$P=25200e^{(11-6)(0.424)} \approx 209945$

Good luck, humanity.

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Calculus 1 : Constant of Proportionality

Study concepts, example questions & explanations for Calculus 1

All Calculus 1 Resources

Example Questions

Example Question #3741 : Calculus

Example Question #22 : Constant Of Proportionality

Example Question #23 : Constant Of Proportionality

Example Question #24 : Constant Of Proportionality

Example Question #25 : Constant Of Proportionality

Example Question #26 : Constant Of Proportionality

Example Question #1 : Asymptotic And Unbounded Behavior

Example Question #21 : How To Find Constant Of Proportionality Of Rate

Example Question #28 : Constant Of Proportionality

Example Question #29 : Constant Of Proportionality

All Calculus 1 Resources

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