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Calculus 1 : How to find constant of proportionality of rate

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Example Question #91 : How To Find Constant Of Proportionality Of Rate

The rate of decrease of the small pox incidents due to modern medicine is proportional to the affected population. The population decreased by 89.3 percent between 1990 and 2000. What is the constant of proportionality in years^-1?

Possible Answers:

-0.011

-2.235

-0.223

-0.113

-2.416

Correct answer:

-0.223

Explanation:

We're told that the rate of change 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 by 89.3 percent between 1990 and 2000, we can solve for this constant of proportionality:

$(1-0.893)y_0=y_0e^{k(2000-1990)}$

$0.107=e^{10k}$

10k=ln(0.107)

$k=\frac{ln(0.107)}{10}=-0.223$

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Example Question #92 : How To Find Constant Of Proportionality Of Rate

The rate of growth of the number of African wild dogs is proportional to the population. The population increased from 21000 to 35000 between 2013 and 2014. Determine the expected population in 2015.

Possible Answers:

55905

52116

49000

49508

58344

Correct answer:

58344

Explanation:

We're told that the rate of change 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, represents a measure of elapsed time relative to this population value, and is the constant of proportionality.

Since the population increased from 21000 to 35000 between 2013 and 2014, we can solve for this constant of proportionality:

$35000=21000e^{k(2014-2013)}$

$\frac{5}{3}=e^{k}$

$k=ln(\frac{5}{3})=0.511$

Now that the constant of proportionality is known, we can use it to find an expected population value relative to an initial population value due to the difference in time points:

$P=35000e^{(0.511)(2015-2014)} \approx 58344$

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Example Question #93 : How To Find Constant Of Proportionality Of Rate

The rate of growth of the number of ants outside of an ice cream shoppe parking lot is proportional to the population. The population increased from 11000 to 21000 between February and June. Determine the expected population in October.

Possible Answers:

43434

39503

38102

40146

41288

Correct answer:

40146

Explanation:

We're told that the rate of change 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, represents a measure of elapsed time relative to this population value, and is the constant of proportionality.

Since the population increased from 11000 to 21000 between February and June, we can solve for this constant of proportionality:

$21000=11000e^{k(6-2)}$

$\frac{21}{11}=e^{4k}$

$4k=ln(\frac{21}{11})$

$k=\frac{ln(\frac{21}{11})}{4}=0.162$

Now that the constant of proportionality is known, we can use it to find an expected population value relative to an initial population value due to the difference in time points:

$P=21000e^{(10-6)(0.162)} \approx 40146$

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Example Question #94 : How To Find Constant Of Proportionality Of Rate

The rate of growth of the number of moths in Arizona is proportional to the population. The population increased from 2,100,000 to 4,350,000 between 2013 and 2015. Determine the expected population in 2016.

Possible Answers:

6341829

5901671

6609976

6259973

6002819

Correct answer:

6259973

Explanation:

We're told that the rate of change 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, represents a measure of elapsed time relative to this population value, and is the constant of proportionality.

Since the population increased from 2,100,000 to 4,350,000 between 2013 and 2015, we can solve for this constant of proportionality:

$4350000=2100000e^{k(2015-2013)}$

$\frac{435}{210}=e^{2k}$

$2k=ln(\frac{435}{210})$

$k=\frac{ln(\frac{435}{210})}{2}=0.364$

Now that the constant of proportionality is known, we can use it to find an expected population value relative to an initial population value due to the difference in time points:

$P=4350000e^{(0.364)(2016-2015)} \approx 6259973$

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Example Question #2781 : Functions

The rate of growth of the number of bacterial cells in a dog bowl is proportional to the population. The population increased from 11300 to 28900 between 3:00 and 3:45. Determine the expected population at 5:15.

Possible Answers:

112503

210302

159665

79984

189018

Correct answer:

189018

Explanation:

We're told that the rate of change 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, represents a measure of elapsed time relative to this population value, and is the constant of proportionality.

Since the population increased from 11300 to 28900 between 3:00 and 3:45, we can solve for this constant of proportionality. Treat the minutes as decimals by dividing them by 60:

$28900=11300e^{k(3.75-3)}$

$\frac{289}{113}=e^{0.75k}$

$0.75k=ln(\frac{289}{113})$

$k=\frac{ln(\frac{289}{113})}{0.75}=1.252$

Now that the constant of proportionality is known, we can use it to find an expected population value relative to an initial population value due to the difference in time points:

$P=28900e^{(1.252)(5.25-3.75)} \approx 189018$

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Example Question #2782 : Functions

The rate of growth of the number of albatrosses plaguing wayward ships is proportional to the population. The population increased from 1123 to 1839 between 1798 and 1802. Determine the expected population in 1834.

Possible Answers:

94181

107224

86433

90312

111545

Correct answer:

94181

Explanation:

We're told that the rate of change 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, represents a measure of elapsed time relative to this population value, and is the constant of proportionality.

Since the population increased from 1123 to 1839 between 1798 and 1802, we can solve for this constant of proportionality:

$1839=1123e^{k(1802-1798)}$

$\frac{1839}{1123}=e^{4k}$

$4k=ln(\frac{1839}{1123})$

$k=\frac{ln(\frac{1839}{1123})}{4}=0.123$

Now that the constant of proportionality is known, we can use it to find an expected population value relative to an initial population value due to the difference in time points:

$P=1839e^{(0.123)(1834-1802)} \approx 94181$

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Example Question #91 : How To Find Constant Of Proportionality Of Rate

The rate of decrease of the number of living yeast cells as the bread is put into the oven is proportional to the population. The population decreased from 4,500,000,000 to 1,500,000 between 3:15 and 3:45. Determine the expected population at 4:15.

Possible Answers:

500

432

887

Correct answer:

500

Explanation:

We're told that the rate of change 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, represents a measure of elapsed time relative to this population value, and is the constant of proportionality.

Since the population decreased from 4,500,000,000 to 1,500,000 between 3:15 and 3:45, we can solve for this constant of proportionality. Convert minutes to decimals by dividing by 60:

$1500000=4500000000e^{k(3.75-3.25)}$

$\frac{1}{3000}=e^{0.5k}$

$0.5k=ln(\frac{1}{3000})$

$k=\frac{ln(\frac{1}{3000})}{0.5}=-16.013$

Now that the constant of proportionality is known, we can use it to find an expected population value relative to an initial population value due to the difference in time points:

$P=1500000e^{(-16.013)(4.25-3.75)} \approx 500$

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Example Question #2783 : Functions

The rate of decrease of the number of albino squirrels is proportional to the population. The population decreased from 413 to 136 between 2010 and 2015. Determine the expected population in 2018.

Possible Answers:

112

265

Correct answer:

Explanation:

We're told that the rate of change 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, represents a measure of elapsed time relative to this population value, and is the constant of proportionality.

Since the population decreased from 413 to 136 between 2010 and 2015, we can solve for this constant of proportionality:

$136=413e^{k(2015-2010)}$

$\frac{136}{413}=e^{5k}$

$5k=ln(\frac{136}{413})$

$k=\frac{ln(\frac{136}{413})}{5}=-0.222$

Now that the constant of proportionality is known, we can use it to find an expected population value relative to an initial population value due to the difference in time points:

$P=136e^{(-0.222)(2018-2015)} \approx 70$

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Example Question #2784 : Functions

The rate of decrease of the number of pollen particles in the air of a room with a vacuum on is proportional to the population. The population decreased from 12345 to 6789 between 3:00 and 4:00. Determine the expected population at 7:00.

Possible Answers:

1234

1588

816

1129

1002

Correct answer:

1129

Explanation:

We're told that the rate of change 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, represents a measure of elapsed time relative to this population value, and is the constant of proportionality.

Since the population decreased from 12345 to 6789 between 3:00 and 4:00, we can solve for this constant of proportionality:

$6789=12345e^{k(4-3)}$

$\frac{6789}{12345}=e^{k}$

$k=ln(\frac{6789}{12345})=-0.598$

Now that the constant of proportionality is known, we can use it to find an expected population value relative to an initial population value due to the difference in time points:

$P=6789e^{(-0.598)(7-4)} \approx 1129$

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Example Question #91 : How To Find Constant Of Proportionality Of Rate

The rate of decrease of the number of tunnel snakes is proportional to the population. The population decreased from 2445 to 813 between 2267 and 2269. Determine the expected population in 2277.

Possible Answers:

213

Correct answer:

Explanation:

We're told that the rate of change 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, represents a measure of elapsed time relative to this population value, and is the constant of proportionality.

Since the population decreased from 2445 to 813 between 2267 and 2269, we can solve for this constant of proportionality:

$813=2445e^{k(2269-2267)}$

$\frac{271}{815}=e^{2k}$

$2k=ln(\frac{271}{815})$

$k=\frac{ln(\frac{271}{815})}{2}=-0.551$

Now that the constant of proportionality is known, we can use it to find an expected population value relative to an initial population value due to the difference in time points:

$P=813e^{(-0.551)(2277-2269)} \approx 10$

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Calculus 1 : How to find constant of proportionality of rate

Study concepts, example questions & explanations for Calculus 1

All Calculus 1 Resources

Example Questions

Example Question #91 : How To Find Constant Of Proportionality Of Rate

Example Question #92 : How To Find Constant Of Proportionality Of Rate

Example Question #93 : How To Find Constant Of Proportionality Of Rate

Example Question #94 : How To Find Constant Of Proportionality Of Rate

Example Question #2781 : Functions

Example Question #2782 : Functions

Example Question #91 : How To Find Constant Of Proportionality Of Rate

Example Question #2783 : Functions

Example Question #2784 : Functions

Example Question #91 : How To Find Constant Of Proportionality Of Rate

All Calculus 1 Resources

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