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3.06 Further applications of growth and decay

Worksheet
Applications of sequences
1

A scuba diver descends below the surface of the water at a constant rate so that his depth after 4 minutes, 8 minutes and 12 minutes is 15 metres, 30 metres and 45 metres respectively.

a

Create a table of values for the scuba diver's time underwater and depth underwater.

b

Identify whether the sequence is arithmetic or geometric.

c

Write an explicit rule for the depth D of the diver after m minutes.

d

Find the number of minutes it takes for the diver to reach a depth of 120 metres.

2

The population of some native bees is declining at a rate of 10\% per year.

a

Identify whether the population can be modeled by an arithmetic or geometric sequence.

b

Write an explicit rule for the population P_n after n years. Let P_0 be the starting population.

c

If there are 23\,700 bees in a hive now, how many will there be in 6 years time?

3

The government wants to decrease its spending on job creation. Currently it is spending \$11 million and will decrease it by 6.85\% each year over the next 6 years.

a

Determine what type of sequence the government's spending can be modelled by and state the common difference or ratio for the sequence.

b

Calculate the government's spending in 6 years' time, rounding to the nearest dollar.

4

Luigi starts his career with a monthly wage of \$5400. At the beginning of each year that follows he receives a raise and his monthly wage for that year will be \$120 greater than the previous year.

a

What will be his yearly salary in the second year of his service?

b

Determine the number of years that it would take for him to earn a total of \$792\,000.

5

A telecommunications company sells 1700 mobile phones in the first month of its operation. The company plans to increase its sales by 150 mobile phones each month.

a

How many phones does the company plan to sell in the last month of the 4th year of its operation?

b

How many phones does the company plan to sell in the entire 4 year period?

6

A ball starts rolling down a slope. It has rolled 23\text{ cm} after the first second, 44\text{ cm} after the second, 65\text{ cm} after the third second and so on.

a

Create a table of values for the time and distance of the ball rolling.

b

Determine what type of sequence the ball's distance can be modelled by and state the common difference or ratio for the sequence.

c

Write an explicit rule for the distance the ball has rolled, d, after t seconds.

d

Determine how far the ball will roll after 12 seconds.

7

A termite treatment will cost \$260 for the first half hour, \$250 for the second half hour, \$240 for the third half hour and so on.

What will be the cost of a treatment that takes 5 hours?

8

A mobile phone depreciates in value by a constant amount per month and its value is given by the explicit rule V_n = 1200 - 25 n, where V_n is the balance after n months.

a

By how much does the value of the phone depreciate each month?

b

What was the purchase price of the phone?

9

A worker at a factory is stacking cylindrical-shaped pipes which are stacked in layers. Each layer contains one pipe less than the layer below it. There are 6 pipes in the topmost layer, 7 pipes in the next layer, and so on.

a

Determine what type of sequence the number of pipes in a layer can be modelled by and state the common difference or ratio for the sequence.

b

Write an expression for the number of pipes in the nth layer.

c

How many pipes are in the 10th layer?

10

For a sprint training exercise, a number of balls are placed in a straight line. The first ball is 2 metres from the start, and there is a 3 metre distance between each of the remaining consecutive balls. There are n balls placed out in the line. Pauline must run from the start, collect the nearest ball and run back to the start, depositing the ball into a box. She must run back to collect the next ball, returning with it to the start. She continues this until all n balls have been collected.

a

Write an expression for how far Pauline runs to collect and deposit the kth ball.

b

How far does she runs to collect and deposit the 12th ball?

11

Eileen starts training for a 3.75\text{ km} charity trail run by running every week for 25 weeks. She runs 1\text{ km} of the course in the first week and each week after that she runs 250\text{ m} more than the previous week. She continues this until she runs the same distance as the trail run. She then continues to run this distance each week.

a

How far does she run in the 12th week?

b

What is the total distance that Eileen runs in 25 weeks? Round your answer to two decimal places.

12

A fishing trawler spends several days netting crabs. On the first day, it nets 530\text{ kg} of crabs, on the next day it nets 512\text{ kg}, and the amount netted continues to decrease by the same amount each day.

a

How many kilograms are netted on the 10th day?

b

What is the total weight netted in the first 10 days?

c

The trawler returns to port when it has netted a total weight of 7992 kg. Find the number of days the trawler spent at sea.

13

A diving vessel descends below the surface of the water at a constant rate so that the depth of the vessel after 1 minute, 2 minutes and 3 minutes is 50 metres, 100 metres and 150 metres respectively.

a

By how much is the depth increasing each minute?

b

What will the depth of the vessel be after 4 minutes?

c

Continuing at this rate, what will be the depth of the vessel after 10 minutes?

14

A rare figurine was purchased for \$60 and ten years later it is worth \$460.

a

The figurine appreciated in value by a constant amount each year. How much did it appreciate each year?

b

What will the value of the figurine be in another 10 years time?

15

The balance of a savings account earning simple interest each year is given by the explicit rule V_n = 2100 + 400 \left(n - 1\right), where V_n is the balance after n years.

a

How much interest is the account earning each year?

b

How much is in the account after 1 year?

c

What was the original investment amount?

16

When a new school first opened, a students started at the school. Each year, the number of students increases by the same amount, d. At the beginning of its 7th year, it had 361 students. At the end of the 11th year, the school had 536 students.

At the end of the nth year, the school has reached its capacity at 921 students. Find the value of n.

17

A ball dropped from a height of 21 metres will bounce back off the ground to 50\% of the height of the previous bounce (or the height from which it is dropped when considering the first bounce).

Calculate the height of the fifth bounce. Round your answer correct to two decimal places.

18

Average annual salaries are expected to increase by 5 percent each year. If the average annual salary this year is found to be \$49\,000:

a

Calculate the expected average annual salary in 4 years.

b

This year, Ray starts at a new job in which he will receive the average annual salary for each year of his employment. Over the coming 4 years (including this year) he plans to save half of each year’s annual salary.

What will be his total savings over these 4 years?

19

Suppose you save \$1 the first day of a month, \$2 the second day, \$4 the third day, \$8 the fourth day, and so on. That is, each day you save twice as much as you did the day before.

a

What will your total savings be for the first 12 days?

b

What will your total savings be for the first 28 days?

20

Suppose you save \$1 the first day of a month, \$2 the second day, \$4 the third day, \$8 the fourth day, and so on. That is, each day you save twice as much as you did the day before.

a

What will you put aside for savings on the 17th day of the month?

b

What will you put aside for savings on the 29th day of the month?

21

State whether the following scenarios involve a limiting value:

a

The amount of radiation in the air after a nuclear disaster if the radiation decreases by half every 100 years.

b

The number of employees in a company over the next 10 years.

c

Saving \$100 each week until the savings target is reached.

d

The value of a piece of machinery if it decreases by 30\% each year.

22

The zoom function in a camera multiplies the dimensions of an image by a constant amount. In an image, the height of waterfall is 35\text{ mm}. After the zoom function is applied once, the height of the waterfall in the image is 66.5 mm. After a second application, its height is 126.35\text{ mm}.

a

Each time the zoom function is applied, by what factor is the image enlarged?

b

If the zoom function is applied a third time, what will be the height of the waterfall in the image? Round your answer to three decimal places.

23

To test the effectiveness of a new antibiotic, a certain bacteria is introduced to a body and the number of bacteria is monitored. Initially, there are 14 bacteria in the body, and after four hours the number is found to quadruple.

a

If the bacterial population continues to quadruple every four hours, how many bacteria will there be in the body after 24 hours?

b

The antibiotic is applied after 24 hours, and is found to kill half of the germs every four hours. How many bacteria will there be left in the body 24 hours after applying the antibiotic? Assume the bacteria stops multiplying and round your answer to the nearest integer.

24

A paver needs to pave a floor with an area of 800 square metres. He can pave 50 square metres a day.

a

Complete the table showing the area left to pave at the start of each day:

b

Is this linear or exponential decay? Explain your answer.

\text{Day}\text{Area of floor} \\ \text{left to pave }(m^{2})
1800
2
3
4
5
25

For a fibre-optic cable service, Christa pays a one off amount of \$200 for installation costs and then a monthly fee of \$30.

a

Complete the table of values for the total cost \left(T\right) of Christa's service over n months.

b

By how much are consecutive terms in the sequence increasing?

c

From the table of values, plot the first four points on a cartesian plane.

d

Is the sequence an arithmetic sequence or geometric sequence?

n123418
T
26

A car bought at the beginning of 2009 is worth \$1500 at the beginning of 2015. The value of the car has depreciated by a constant amount of \$50 each year since it was purchased.

a

What was the car purchased for in 2009?

b

Plot the value of the car, V_n, on the graph from 2009 (n = 0) to 2015 (n = 6).

c

Write an explicit rule for the value of the car after n years.

d

Find the year, n, at the end of which the car will be worth half the price it was bought for.

27

An online business that sells shoes online has been growing very quickly over the last year. They have asked you to model their growth over the next three quarters, and further into the future.

a

Assuming the number of customers changed in the same way each quarter, complete the table to predict the number of shoes sold over the next three quarters:

\text{Quarter }(N)1234567
\text{Online Customers }(C)200800320012,800
b

Find an equation for the number of sales after the nth quarter.

c

Use the formula to predict how many sales they will have 2.25 years after they started the business.

d

Explain whether your answer to part (c) is realistic.

28

This year, 640 people are expected to enter the workforce as registered nurses. This number is expected to increase by 2 percent next year, and increase by the same percentage every year after that.

a

Calculate the number of nurses expected to enter the workforce between six and seven years from now. Round your answer to the nearest whole number.

b

Calculate the number of nurses expected to enter the workforce over the next six years. Round your answer to the nearest whole number.

29

Cinema ticket sales for a new movie increased by 5\% per day for the first 10 days after its release date, and then decreased by 7\% per day for the next 5 days. \$275\,000 in ticket sales were made on the release date.

a

Find the total sales for the first 10 days.

b

Find the total sales for the next 5 days.

c

Hence or otherwise, find the total sales over the 15-day period.

30

A gym trainer posts Monday's training program on the board, along with how you should progress each day that follows based on your level of fitness. The information is below:

MONDAY TRAINING PROGRAM

  • 9 single rope skips

  • Weight lift 6\dfrac{1}{2} kg

  • Rest 2 minutes

  • Row \dfrac{1}{4} mile

BEGINNER LEVEL: Each day, increase the numbers and time by \dfrac{1}{3} of the first day.

INTERMEDIATE LEVEL: Each day, increase the numbers and time by \dfrac{1}{3} of the previous day.

a

Using the Intermediate Level training program:

i

Find the number of single rope skips you would need to complete on Wednesday.

ii

Find the weight you would need to weight lift on Wednesday. Express the weight as a mixed number.

iii

Find the rest time on Wednesday.

iv

Find the distance to be rowed on Wednesday.

b

Using the Beginner Level training program:

i

Find the number of single rope skips that will need to be done on Wednesday.

ii

Find the distance you would need to row on Wednesday.

c

Which level training plan is the most realistic in the long term, Beginner or Intermediate?

Applications of first order linear recurrence
31

A piece of machinery depreciated at a constant rate per hour of use. After 170 hours of use, it was worth \$23\,980. After 230 hours of use, it was worth \$23\,620.

a

Write a recursive rule for V_n in terms of V_{n - 1}, and an initial condition V_0.

b

Write an explicit rule, V_n, for the value of the machinery after n hours of use.

32

The average annual rate of inflation in Kazakhstan is 2.6\%. Bread cost \$3.65 in 2015.

a

What would the bread cost in 2016?

b

At this rate, what would bread cost in 2018?

c

Write a recursive rule, V_n, defining the cost of bread n years after 2015.

33

Each day, Namika withdraws \$5 from her bank account to spend on lunch. Before she withdraws this amount on January 1, she has \$3000 in her bank account.

a

After Namika withdraws \$5 on January 7, how much does she have left in her bank account?

b

How much does Namika have left in her bank account at the end of February 7?

c

Write a recursive rule for t_{n+1} in terms of t_n which defines the amount Namika has in her account at the end of day n, and an initial condition for t_0.

34

Zuber is a taxi service that charges a \$1.50 pick-up fee and \$1.25 per kilometre of travel.

a

What is the total charge for a 10 km journey?

b

Write a recursive rule for T_n in terms of T_{n - 1} which defines the price of a n km trip, and an initial condition for T_0.

35

The value of Beirut Bank shares is decreasing by \$2.05 each day. At the beginning of today's trading, the shares are worth \$42.54.

a

Today is March 8. How much are they worth at the start of March 17?

b

Write a recursive rule for V_{n+1} in terms of V_n which defines the the value of the shares at the end of day n, and an initial condition for V_0.

36

Tabitha is a salesperson and is paid a travel allowance of \$45 for each business trip she takes to demonstrate the use of the product she sells. Each week she is also paid a retainer of \$230.

a

Calculate the total amount she is paid in a week where she does three business trips.

b

Write a recursive rule for u_n in terms of u_{n - 1} which defines how much Tabitha is paid in a week where she makes n sales, and an initial condition for u_0.

c

Write a recursive rule for v_n in terms of v_{n - 1} which defines how much Tabitha is paid in two week where she makes n sales, and an initial condition for v_0.

37

Jack is learning to drive. His first lesson is 28 minutes long, and each subsequent lesson is 4 minutes longer than the lesson before.

a

Write a recursive rule with which describes the length of the next lesson, t_{n + 1} based on the previous one, t_n.

b

How long will his 14th lesson be?

c

If Jack reaches 10 total hours of lessons during his nth lesson, find the value of n.

d

What is the total number of hours Yuri has had lessons after his 6th lesson?

38

A motorbike depreciates in value by a constant amount each year and its value is modelled by the recurrence relation:

V_{n+1} = V_n - 1200, \text{ } V_0 = 15000

where V_{n+1} is the value of the motorbike, in dollars, after n+1 years.

a

State the purchase price of the motorbike.

b

Identify how much the value is decreasing each year.

c

Write an explicit rule for V_n that gives the value of the motorbike after n years.

d

What will the motorbike be worth after 9 years?

39

A piece of jewellery appreciates in value by a constant amount each year and its value is modelled by the recurrence relation:

V_n = V_{n - 1} + 320, \text{ } V_0 = 2000

where V_n is the value of the jewellery, in dollars, after n years.

a

State the initial value of the piece of jewellery.

b

By how much does it appreciate each year?

c

Write an explicit rule for V_n that gives the value of the piece of jewellery after n years.

d

What will the jewellery be worth after 11 years?

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Outcomes

3.3.1.4

use arithmetic sequences to model and analyse practical situations involving linear growth or decay, such as analysing a simple interest loan or investment, calculating a taxi fare based on the flag fall and the charge per kilometre, or calculating the value of an office photocopier at the end of each year using the straight-line method or the unit cost method of depreciation

3.3.2.4

use geometric sequences to model and analyse (numerically or graphically only) practical problems involving geometric growth and decay (logarithmic solutions not required), such as analysing a compound interest loan or investment, the growth of a bacterial population that doubles in size each hour or the decreasing height of the bounce of a ball at each bounce; or calculating the value of office furniture at the end of each year using the declining (reducing) balance method to depreciate

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